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Marine Vessel Energy Efficiency Solutions Market Geographical Expansion & Analysis, Share,Size, during 2017 to 2032

Marine vessel energy efficiency solutions refer to technologies, practices, and systems designed to improve the fuel efficiency and reduce the environmental impact of marine vessels. These solutions are adopted in various types of ships, including cargo vessels, tankers, passenger ships, and offshore support vessels. Here is an overview of the marine vessel energy efficiency solutions market, including its demand and key trends:

Market Overview: The marine vessel energy efficiency solutions market has been growing steadily due to increasing environmental regulations, rising fuel costs, and the need to reduce greenhouse gas emissions from the shipping industry. Energy efficiency solutions in marine vessels aim to optimize fuel consumption, reduce emissions, and enhance operational efficiency.

Marine Vessel Energy Efficiency Market size was valued at USD 163.02 Million in 2022 and is expected to expand at a CAGR of 4.25% in the forecasted period 2023-2030.

Demand Drivers:

Environmental Regulations: Stringent regulations imposed by international bodies, such as the International Maritime Organization (IMO), require the shipping industry to reduce emissions and improve energy efficiency. Compliance with these regulations is driving the adoption of energy efficiency solutions in marine vessels.

Fuel Cost Savings: The rising fuel costs have become a significant concern for ship operators and owners. Energy efficiency solutions can help reduce fuel consumption, resulting in cost savings over the vessel's operational lifespan.

Environmental Sustainability: The shipping industry is under pressure to reduce its environmental impact and contribute to global sustainability goals. Energy efficiency solutions play a crucial role in minimizing greenhouse gas emissions, air pollution, and other environmental impacts associated with maritime activities.

Key Trends:

Advanced Propulsion Systems: Adoption of advanced propulsion systems, such as hybrid-electric propulsion and fuel-efficient engines, is a key trend in the marine vessel energy efficiency solutions market. These systems optimize power generation and propulsion, leading to reduced fuel consumption and emissions.

Hull and Propeller Optimization: Technologies aimed at improving hull and propeller design and maintenance are gaining prominence. These solutions include advanced hull coatings, air lubrication systems, and propeller optimization techniques to reduce drag and enhance vessel efficiency.

Energy Management Systems: Energy management systems monitor and optimize various vessel systems and operations to achieve energy efficiency. These systems integrate data from various onboard sensors, optimizing power generation, consumption, and distribution across the vessel.

Waste Heat Recovery: Waste heat recovery systems capture and utilize waste heat generated during vessel operations for various purposes, such as electricity generation or preheating fuel and water. These systems improve overall energy efficiency by utilizing otherwise wasted energy.

Digitalization and Data Analytics: The integration of digitalization and data analytics is transforming the marine vessel energy efficiency market. Real-time monitoring, data analysis, and predictive maintenance enable operators to optimize vessel performance, identify inefficiencies, and make data-driven decisions for energy savings.

Alternative Fuels and Renewable Energy: The adoption of alternative fuels, such as liquefied natural gas (LNG) and biofuels, is on the rise in the shipping industry. Additionally, renewable energy sources, such as wind and solar, are being explored for auxiliary power generation on vessels, further enhancing energy efficiency.

The Marine Vessel Energy Efficiency Solutions market offers several key benefits for stakeholders involved in the maritime industry, shipping companies, and environmental conservation. Here are some of the main advantages:

Fuel Cost Savings: Implementing energy efficiency solutions in marine vessels can lead to significant fuel cost savings. Optimized operations and improved fuel consumption efficiency reduce the overall fuel expenses for shipping companies.

Emissions Reduction: Energy efficiency solutions help reduce greenhouse gas emissions and air pollutants from marine vessels. This contributes to environmental sustainability and helps the shipping industry meet emission reduction targets.

Compliance with Regulations: As environmental regulations become more stringent, adopting energy-efficient practices and technologies helps shipping companies comply with international and regional emissions standards and avoid potential penalties.

Enhanced Competitiveness: Shipping companies that invest in energy efficiency solutions can gain a competitive edge by offering more sustainable and environmentally friendly transportation services, attracting environmentally conscious customers and investors.

Long-term Cost Stability: Energy efficiency measures often lead to long-term cost stability, as fuel prices and operating expenses are better controlled, reducing the impact of volatile fuel markets on the shipping industry.

Overall, the Marine Vessel Energy Efficiency Solutions market not only provides economic advantages for shipping companies but also plays a vital role in reducing the maritime industry's environmental impact, fostering sustainable practices, and supporting the global transition to a greener future.

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Market Segmentations:

Global Marine Vessel Energy Efficiency Solutions Market: By Company • ABB Group • Siemens • GE • Schneider Electric • Wärtsilä • MAN • KONGSBERG • Becker Marine Systems • China Classification Society • Bureau Veritas • Kawasaki Global Marine Vessel Energy Efficiency Solutions Market: By Type • Software and System • Energy-Saving Devices Global Marine Vessel Energy Efficiency Solutions Market: By Application • Tanker Vessels • Container Vessels • Bulk Vessels Global Marine Vessel Energy Efficiency Solutions Market: Regional Analysis The regional analysis of the global Marine Vessel Energy Efficiency Solutions market provides insights into the market's performance across different regions of the world. The analysis is based on recent and future trends and includes market forecast for the prediction period. The countries covered in the regional analysis of the Marine Vessel Energy Efficiency Solutions market report are as follows: North America: The North America region includes the U.S., Canada, and Mexico. The U.S. is the largest market for Marine Vessel Energy Efficiency Solutions in this region, followed by Canada and Mexico. The market growth in this region is primarily driven by the presence of key market players and the increasing demand for the product. Europe: The Europe region includes Germany, France, U.K., Russia, Italy, Spain, Turkey, Netherlands, Switzerland, Belgium, and Rest of Europe. Germany is the largest market for Marine Vessel Energy Efficiency Solutions in this region, followed by the U.K. and France. The market growth in this region is driven by the increasing demand for the product in the automotive and aerospace sectors. Asia-Pacific: The Asia-Pacific region includes Singapore, Malaysia, Australia, Thailand, Indonesia, Philippines, China, Japan, India, South Korea, and Rest of Asia-Pacific. China is the largest market for Marine Vessel Energy Efficiency Solutions in this region, followed by Japan and India. The market growth in this region is driven by the increasing adoption of the product in various end-use industries, such as automotive, aerospace, and construction. Middle East and Africa: The Middle East and Africa region includes Saudi Arabia, U.A.E, South Africa, Egypt, Israel, and Rest of Middle East and Africa. The market growth in this region is driven by the increasing demand for the product in the aerospace and defense sectors. South America: The South America region includes Argentina, Brazil, and Rest of South America. Brazil is the largest market for Marine Vessel Energy Efficiency Solutions in this region, followed by Argentina. The market growth in this region is primarily driven by the increasing demand for the product in the automotive sector.

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More Denial

Denial

Salim twisted his wrists but the ropes proved to be unyielding. He glared at Nick's back; he couldn't believe the sergeant had obediently tied Salim up after only the most feeble of protests. He could hear the other one—Nick called him “Jason”—just behind him. Salim was glad he didn't have to look at the man: Jason was so ignorant and bull-headed. He refused to listen to Nick's assurance that Salim wasn't hostile, and he told Salim to shut up.

Well, what he actually said was “give your mouth some rest,” but the sentiment was the same. Salim couldn't help but mouth off to the marine.

The Americans led Salim to what he assumed was their base of operation. There were already tents set up and what looked like an old machine gun. Dynamite was strapped to the pillars. Of course, Salim thought with a roll of his eyes.

“You sit tight,” Jason ordered, shoving Salim into a sitting position. “Nicky and I are gonna set up some surveillance.”

“And you're going to leave me like this?” Salim demanded. Jason leaned in a little closer, giving Salim the first real look at his face.

He had a square jaw, his thin lips pulled up into a smirk. The visor of his gray cap shadowed his features but Salim could still see freckles on the man's pale skin. Looking at him gave Salim a weird twisting feeling in his stomach. Probably hunger, he dismissed. He hadn't eaten before Dar came over to drag him into this hell.

“We ain't gonna be far. You'll be able to see us on the monitors.”

“Is that the American solution to everything?” Salim spat out. “Just watch television?” Jason let out a soft snort before shifting his face to a neutral expression. If Salim didn't know better, he would think the man just laughed at his mocking joke.

While they were gone, Salim tried shifting his hands toward the knife he kept at his waist. He wiggled his fingers hoping to graze the handle. No luck; he couldn't quite reach. Instead he focused on the monitors. Screens lit up as the Americans got the cameras working. Salim could see Jason correcting the angle and his stomach twisted again. Even over a screen, Jason was making Salim sick. Yet Salim still watched, waiting for the next time Jason showed up.

The Americans returned with Jason making a beeline toward Salim. Salim glared at him and wiggled in his bonds.

“You have to untie me! Those demons will kill me!”

“Don't worry,” Jason drawled with a smile on his lips. The look was strangely playful. “Your buddy here will protect you.”

“We got this place locked down,” Nick added. “You're safe.”

“I'd feel a lot safer with a gun in my hand,” Salim retorted, eyes still fixed on Jason.

“No way am I givin' you a gun,” Jason argued. His tone was casual—nothing at all like the aggression he showed earlier. It was puzzling; Salim had expected him to be angrier at Salim's bold request. “But I ain't gonna let you be killed by those things, either,” Jason added.

Salim could not understand this man. Half an hour ago he was pointing a rifle at Salim and threatening him. Now he was being assuring and almost friendly. Through this whole conversation Jason kept that same playful smile and his eyes stayed fixed on Salim's face. Salim hadn't looked away from Jason, either, to the point where he almost forgot Nick was in the room, too.

Jason's skin was so pale that the faint dark shadow of stubble on his upper lip stood out. Salim's eyes dropped a little lower to the man's lips. The smile was gone, the mouth settled back to a line. Salim traced the line with his eyes, following along the slight dip of Jason's upper lip. He flicked his gaze back up and caught Jason's eyes. His heart skipped a beat. He had the strangest feeling Jason had been staring at his mouth, too.

“We should head out,” Jason spoke up, finally turning to acknowledge Nick. There was a tingling sensation going through Salim's body. He flexed his fingers to make sure he hadn't lost circulation. Jason gave him one last smile before walking away.

Salim's heart was only beating so hard because he was tied up, captured by the enemy, helpless against the demons. His reactions made perfect sense.

Mexican biologist Yuliana Bedolla 

Off Mexico's west coast, the Baja California Pacific Islands are key global nesting sites for 23 seabird species and Natividad Island shelters 90 percent of the breeding population of the Black-vented Shearwater (Puffinus opisthomelas).

Mexican conservation biologist Yuliana Rocío Bedolla Guzmán, Director of the Marine Birds Project at Grupo de Ecología y Conservación de Islas (GECI) says that invasive mammals like cats and rats wiped out at least 27 seabird colonies in the past.

The researchers have been working with fishing cooperatives to decrease the likelihood of reintroductions that would lead to expensive eradication efforts.

"In 2021, we created the local community group “Líderes Comunitarios'' formed by enthusiastic and committed women who have received formal training on island biosecurity and bird identification, and are becoming agents of change in their communities," Bedolla says.

Recently, Bedolla won a 2023 Whitley Award from UK charity Whitley Fund for Nature (WFN) and will use the funding to boost the role of local women and fishing cooperative.

"The goal is to continue preventing the accidental introduction of invasive mammals on Natividad and San Benito Oeste islands by actively involving local leaders and fishing cooperatives in biosecurity protocols," she says.

"My Grain of Sand"

Bedolla grew up far from the sea in Moroleón, a small town in central Mexico, where she enjoyed being out in nature.

"But I had my Eureka moment when I learned to snorkel when I was 12 years old at a beach in Zihuatanejo, Guerrero, in the Mexican Pacific," she says adding that she remembered a feeling of amazement, wonder and a new sense of connection to nature.

"That experience was life-changing for me and marked the beginning of my journey as a conservationist," Bedolla says, "From that moment on, I knew I wanted to become a marine biologist and contribute with my grain of sand."

She would go on to study Marine Biology at the Universidad Autónoma de Baja California Sur in La Paz, Baja California Sur, Mexico, learning to dive and study coral reefs and associated invertebrates on several islands in the Gulf of California.

Bedolla would contact GECI in the course of her masters degree and years later, after a Phd in Germany, GECI offered her the directorship of the Marine Birds Project.

Bedolla says that being from the Global South helps her to bring diverse perspectives and approaches to scientific research, which can lead to more innovative and creative solutions.

The San Benito Islands, which is among the islands Yuliana Bedolla is trying to protect from invasive species

Yuliana is a marine biologist, graduated with honors from the Autonomous University of Baja California Sur (UABCS).

She is a Master in Coastal Oceanography from the Autonomous University of Baja California (UABC) and a PhD candidate from the Justus Liebig University of Giessen in Germany. For her doctorate, she obtained a scholarship in Germany. Yuliana speaks Spanish and English and has basic knowledge of the German language. Her doctoral research focuses on the foraging ecology of three petrel species that nest in the San Benito Archipelago, in the Pacific of Baja California.

She began collaborating with the Ecology and Conservation of Islands Group, A.C., (GECI), in 2009 as a field biologist, and is currently the director of the Seabird Project, which aims to restore and conserve seabirds through the use of social attraction systems in conjunction with systematic monitoring, research and environmental education. She has carried out numerous research studies with national and international institutions. Her scientific publications in international journals focus on the response of seabirds to environmental conditions, the parasites that infect seabirds and the response of native fauna to the eradication of invasive mammals.

She has collaborated with several national seabird conservation programs and has been directly involved in environmental restoration projects in Isla Isabel, San Benito Archipelago, Banco Chinchorro and Arrecife Alacranes, related to the eradication of invasive rodents for the benefit of seabird colonies, among other island species. Her activities at GECI include project planning, staff coordination and supervision, applied research and monitoring, environmental education with local communities and dissemination of information in conferences and scientific reports and publications.

Source

Purple Sand Dollars: How Human Activity Affects Aquatic Life in the Puget Sound

In mid spring, and mid autumn the gravelly sand on Fudge Point is blanketed in dark purple sand dollars. It is mating season these times of year on Harstine Island for these invertebrates. I used to walk down the beach from Island Shore road during low tide to Fudge Point to play with the sand dollars when they were not covered in three feet of icy water. Deep royal purple disks littered the ground, layering over each other in the thousands. I loved to pick up the creatures and feel their tiny cilia tickle my skin as they moved around. As the week ended, the tide left behind the exoskeletons of the sand dollars, and my brothers and I would go out collecting them with our sand pails. Looking at the shells at the star on their backs, you would never have known sand dollars are purple. As the years go by, it seems as if there are less and less sand dollars scattered in the sand. In fact, “in the past 30 years there has been a large recession in the populations of the species which inhabit the Puget Sound. The decrease has been seen in the populations of: forage fish, salmonids, bottom fish, marine birds, harbor porpoise and orcas,” (Environmental Issues in Puget Sound). There are now more cars on the roads, leaving toxins in the ground that the water runoff then carries along with it into the sound. Construction along the 2,500 miles of shoreline is destroying natural habitats in several areas, and causing harm to the wildlife (Impact on Puget Sound). As the population of the area grows, so does the pollution rate, destruction of natural habitat, fishing rate, and introduction of foreign invasive species. All these issues contribute to the loss of natural wildlife in Puget Sound. However there is a possibility, through the cooperation of communities and hard-work of individuals and governments, the sound can be restored.

Pollution in the Puget Sound is an ever growing problem, and it is at least partially attributed to the growing population in the area. Gene Balk from the Seattle Times reports that,  “From July 1, 2014 to July 1, 2015, Seattle grew by 2.8 percent — the highest rate among the 50 most-populous U.S. cities. Seattle added nearly 18,000 residents in the one-year period, bringing its population to about 652,000,” (U.S. Census: Seattle now fourth for growth among 50 biggest U.S. cities).As more people drive to and from work each day more fuel emissions and litter are left in the roads, only to end up in the sound with the next rainfall. As a result of this several species of marine life are threatened with endangerment or extinction. Paved areas are an obvious issue here, due to the fact that the soil can not absorb water and filter toxins through the pavement (McIntyre). Research is being done at the Washington Stormwater Center on a popular solution known as green stormwater infrastructure. Giles Pettifor of the King County Stormwater Permit Team describes it as, “Building stormwater control structures that more closely mimic natural settings.”  Jennifer McIntyre, a researcher at Washington State University, leads a research team “that’s studying how polluted runoff impacts aquatic animals,” (Campbell). Mcintyre and her research team used green stormwater infrastructure to conduct experiments on Coho salmon. They had filtered water from the highway runoff in a makeshift rain garden, then filled several fish tanks half with the filtered water, and half with unfiltered highway runoff, and put 10 juvenile Coho salmon in the tanks. Katie Campbell from KCTS-9 in seattle reports that, “her [McIntyre] plan was to monitor the salmon for four days, but within 12 hours all the fish that were in the straight highway runoff were dead. And the fish in the filtered runoff? All still alive.” When runoff from rain events leaks into the sewage pipes and causes them to overflow, it is known as Combined Sewage Overflow (CSO). CSO brings many pollutants, harmful pathogens, and excess nutrients into the sound (Environmental Issues in Puget Sound). All of these are detrimental in their own way. Highway runoff and CSO damages marine habitat and makes the water turbid. In some places it is near to impossible for marine life to survive. In northeastern Puget Sound, Hood Canal is experiencing a low-oxygen condition known as hypoxia. This is largely due to the nutrient levels in the water. Excess nutrients contribute to hypoxia in an interesting way. Algae depends on these nutrients to survive and multiply. As they die they release nitrogen into the environment which depletes oxygen levels in the water. With more algae there is less oxygen, creating a much harsher environment for marine species to live in. Besides being detrimental to the physical health of marine animals, pollutants in the water can have other adverse effects. For example, heavy metal pollutants such as lead can cause reproductive harm, slowing down the reproduction of many marine species. King County is currently trying to pass legislation to limit the amount of CSO released into the sound. However, the growing population contributes to the problem and makes it a more tedious task to regulate pollution in the sound. CSO affects marine life indirectly as well by destroying their natural habitats and making them too hostile an environment to support life.

Population increase in the Puget Sound means more development of near-shore areas, which in turn means more destruction of natural habitats. According to the Capital Regional District (CRD), a Canadian government created organization overseeing legislation in the northern sound area, “Human-caused habitat loss...is altering ecosystems on a global scale, often causing destruction that is irreversible.” Richard Feely, of the National Oceanic and Atmospheric Administration’s Pacific Marine Environmental Laboratory and the University of Washington, has found that, “as much as one third of the water on the West Coast is acidic enough to be ‘corrosive’,” and, “by 2050, 50 to 70 percent of the water will be corrosive” (Warshaw). Craig Welch and Steve Ringman, of the Seattle Times, found in their study of CO2 levels and their effects on ocean life that, “Acidification rates expected to occur later this century are already being surpassed.” Besides chemical changes to the environment, physical changes are causing what is known as habitat fragmentation. As the CRD describes it, “Habitat fragmentation occurs when previously connected habitat is split up by human developments such as urban areas, agricultural fields, logging, and roads. This leaves smaller, isolated areas to be available for wildlife - in effect, habitat ‘islands.’ These islands have much more edge area exposed to stressors such as human disturbance, invasive species, and pollution. Fragmentation interrupts the movements, foraging, and hunting behaviors of many animals.” Habitat fragmentation has many man-made causes, including dredging, which destroys habitats at the seafloor. A study was done in 2008 by a group of scholars and scientists from universities and science centers located on each of the US coasts, on the loss of habitat and its potential effect on salmonids in the Puget Sound. Michelle M. McClure et al defined the issue as:

Historically, anadromous salmonids utilized freshwater habitats in the western United States (excluding Alaska) from the coast inland to Montana and Nevada totaling nearly 633,000 km². Large-scale blockages in this region have left only about 56% of that area (~355,000 km²) accessible. Dams constructed for irrigation  and hydroelectric power generation are one of the largest culprits in blocking access for these fishes, but culverts and river engineering have also reduced the amount of habitat that anadromous fishes can use. (3)

Their hypothesis was that, “the loss of habitat can potentially affect the evolutionary trajectories of affected species in significant ways,” (2). The theorized effects included altered selective regime which would reduce the variety of traits displayed by the salmonids. The team identified areas with various traits such as, “presence of anadromous salmonids,” “areas that are anthropogenically blocked and currently inaccessible,” and “potential anthropogenic stresses to streams to identify habitats likely affected by changes…” (10) in the environment. They found “significant differences between accessible and inaccessible areas in every metric” (5). For every variable of human impact that they measured, isolated or blocked areas had lower values than accessible areas, “meaning that previously used, but now inaccessible habitats are less affected by human activities and associated changes in flow, temperature, and other characteristics.” Habitat fragmentation has a huge affect on the salmonids, and various other species, of the Puget Sound. “The disruption of connections among local populations,” (10) leads to reduced levels of genetic variation, which leads to a more vulnerable species. The researchers wrote, “Loss of habitat and its attendant consequences have been implicated as the largest threat to endangered species in the United States, and the loss of habitat is seen as the major cause of extinctions,” (1) which seems to remain true through 2016.

Salmon are not facing hardships solely because of habitat fragmentation and destruction. They have been a popular species for hunting for as long as humans and salmon have coexisted, and it is likely that eventually they will be hunted into extinction just like the dodo bird or the great auk. Although many species of salmon are not endangered, their existence is of great importance to many because they are the main food source for Southern Resident orca whales, which were labeled endangered as of 2005, being a subspecies of orca unique to the area. Groundfish in the Puget Sound are often overfished and are threatened with endangerment as well. An article by the Sierra Club, which “supports the effort to establish Marine Reserves in the coastal waters of Washington State,” notes that, “Washington now leads the continental united states in having the most endangered species and the most depressed fisheries in North America.” Boris Worm, a fisheries biologist at Dalhousie University in Canada, commented, “The loss of [oceanic] biodiversity continues at a pace that’s not slowing down. On average, the conditions of the oceans continues to get worse,” in an interview with Mother Jones Magazine. Despite the grim outlook of the scientific community, the Sierra Club article describes how building Marine Reserves (MRs) and Marine Protected Areas (MPAs) can help repopulate dwindling species. “A network of Marine Reserves...recreates near pristine complete ecosystems and gives fisheries management professionals a benchmark to gauge whether management protocols are working,” eventually the goal is to produce 4-7 times more fish than there are currently (Marine Reserves in Puget Sound and Washington). The state of Washington is becoming one of the first to take “genuine” steps towards protecting “areas of critical habitat” with the Washington Department of Fisheries and Wildlife’s (WDFW) Puget Sound Rockfish Conservation Plan. This plan will use MRs and MPAs to begin to regrow the populations of rockfish in the Puget Sound. Utilizing these systems on a bigger scale could be a possible solution to protecting the species of northwestern Washington and other parts of the world. 

Although not completely caused by humans, invasive species are another leading cause of animal endangerment in Puget Sound. These invaders, sometimes called nuisance species, are introduced to the environment in one way or another, and change the competition of the entire ecosystem (Environmental Issues in Puget Sound). There are many ways foreign species make their way into the sound. They can spread to many places through the importation of seafood, attaching themselves to the hulls of ships, natural dispersal, etc. The most destructive species currently are marine grass that traveled all the way from Japan after the many tsunamis that took place. Although large brown alga may be the homes of many Pacific herring eggs, it out competes the native kelp, and causes the water to be more murky and turbid; an uncomfortable environment for many native species (Invasive Species in King County). Animals like oyster drills, zebra mussels, and tunicates are a few examples of species that attach themselves to the hulls of ships and travel thousands of miles until they reach the Puget Sound area. The WDFW is currently trying to solve the issue of invasive species with their Nuisance Species Management Plan. Allen Pleus of WDFW reports that, “Preventing the introduction and spread of aquatic invasive species in Washington is challenging and unpredictable. Discovery and continued findings of potentially invasive species on Japanese tsunami marine debris is a good example of a new threat to the state’s coastal waters” (Aquatic Invasive Species). The Nuisance Species Management Plan involves the state’s Patrol Commercial Vehicle Inspectors searching incoming vessels for animals that may have attached themselves to the underside of ships, and then promptly removing any they find before they have the chance to spread. In Olympia, the city has worked with the Environmental Protection Agency (EPA) to implicate an interesting plan to deal with their arched slipper limpet snail problem. The city is taking the shells of these pests and packing them into the sidewalk to slow down runoff and the flow of of stormwater into the sound. The program manager at Olympia’s Department of Public Works, Emmett Dobey, has said that, “The process also seemed to reduce the amount of pollutants that typically come along for the ride,” which implies that these shells could be part of a bigger plan to restore the natural beauty and biodiversity of the sound (Environmental Issues in Puget Sound). 

Now that I am an adult, I look across the water of the Puget Sound and can’t help but feel a little sad. I am sad for all the marine life that will inevitably be wiped out as time goes on. Some critics such as Stewart Brand, author of Whole Earth Discipline, believe that, “Viewing every conversation issue through the lens of extinction threat is simplistic and usually irrelevant,” because extinction is something that happens naturally, and there are more important issues plaguing our planet currently (Rethinking Extinction). Others like Elizabeth Kolbert, author of The Sixth Extinction, believe that extinction is an important issue that we should do something about. It is clear that humans have a big impact on the health and biodiversity of Puget Sound through pollution, destruction of natural habitat, overfishing, and introduction of invasive species among other things. Hopefully through the work of WDFW and the local communities the sound can be restored and the marine life can thrive the way it once did long ago. 

Written for Portland Community College, May 2016

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Works Cited

Brand, Stewart. "Rethinking extinction."  Aeon Essays (2015): n.p. Web. 25 May 2016.

"Invasive Species in King County." King County. N. p., n.d. Web. 31 May 2016.

"Environmental Issues in Puget Sound."  Wikipedia. N.p., 2016. Web. 25 May 2016.

Beechie, Timothy J. "Evolutionary Consequences of Habitat Loss for Pacific Anadromous Salmonids."  Blackwell Publishing Ltd. (2008): 19. Web. 31 May 2016.

Smith, Joel P. "Water Out of Fish: Are We Overfishing Our Oceans?"  Sound Consumer. PCC Natural Markets, July 2012. Web. 25 May 2016.

Vaidyanathan, Gayathri. "Puget Sound Orcas To Remain on Endangered List." Discovery. 17 Aug. 2013. Web. 25 May 2016.

"Marine Reserves." Sound Science. n.d. Web. 25 May 2016.

"Habitat Loss and Degradation." CRD, n.d. Web. 31 May 2016.

"Marine Reserves in Puget Sound and Washington." Sierra Club, n.d. Web. 31 May 2016.

"Scientists Search for Solution to 'Toxic Cocktail' in Washington's Puget Sound." . PBS Newshour, 14 Mar. 2013. Web. 25 May 2016.

Pleus, Allen. "Aquatic Invasive Species." Washington Department of Fish & Wildlife, n.d. Web. 31 May 2016.

Warshaw, Amelia. "Ocean Acidification: Just One of the Challenges Facing Marine Ecosystems." Pulitzer Center, 4 Aug. 2014. Web. 31 May 2016.

THE SECOND ANNUAL SUMMIT WILL UNVEIL THE FIFTEEN 2023 EARTHSHOT PRIZE FINALISTS WHO ARE TRAILBLAZING CLIMATE SOLUTIONS TO REPAIR OUR PLANET BY 2030

The Earthshot Prize and Bloomberg Philanthropies today announced they will co-host the second Earthshot Prize Innovation Summit on September 19, 2023, in New York City with the founder of The Earthshot Prize, Prince William, expected to attend.

Held during New York Climate Week and the 78th Session of the UN General Assembly, the Summit will convene previous Earthshot Prize Winners and Finalists with policymakers, global business leaders, philanthropists, and climate activists to scale their innovative solutions.

At the Summit, The Earthshot Prize will reveal this year’s 15 Finalists and introduce their groundbreaking climate and environmental solutions to repair our planet this decade on one of the biggest international stages.

To help drive meaningful change, and accelerate the collaborations and investments needed to scale those solutions, the Summit will connect the new and previous Earthshot Prize Finalists and Winners with forward-thinking business leaders, philanthropists, and governments already working to regenerate the planet. September’s Summit begins the countdown to The Earthshot Prize’s third annual Awards ceremony in Singapore, where, on November 7, 2023, five of the 15 Finalists will be awarded a catalytic £1 million to scale their cutting-edge solutions.

Alongside Prince William, Michael R. Bloomberg, Global Advisor to the Winners of The Earthshot Prize, will address the assembled guests. Other featured speakers will include policymakers, business leaders, climate innovators, and previous Earthshot Prize Winners and Finalists. The full agenda will be announced in due course

Founded by Prince William and The Royal Foundation in 2020, The Earthshot Prize is a global environmental prize to discover, accelerate, and scale ground-breaking solutions that can help put the world firmly on a trajectory toward a stable climate where communities, oceans, and biodiversity thrive in harmony by 2030.

Inspired by President John F. Kennedy’s Moonshot, which united millions of people around the goal of reaching the moon, The Earthshot Prize recognizes Finalists and Winners across five challenges, or ‘Earthshots’: Protect and Restore Nature, Clean our Air, Revive our Oceans, Build a Waste-free World, and Fix our Climate. The Prize aims to turn the current pessimism surrounding environmental issues into optimism and will discover 50 winners over 10 years with the power to repair the planet

The inaugural 2021 Earthshot Prize Finalists have already driven incredible impact with more than 1.5 million people benefiting directly from their solutions. Over 7,000 hectares of land and almost 2.1 million hectares of ocean have been protected or restored, while over 35,000 tonnes of CO2 emissions have been reduced, avoided, or sequestered. The 2022 Finalists, announced this past autumn, are well on their way to creating similar impact.

To help accelerate the work of the inaugural Finalists at last year’s Earthshot Prize Innovation Summit, Bloomberg Philanthropies committed more than $20 million through direct grants, co-funding, and other efforts to support the success of the inaugural Finalists and Winners of The Earthshot Prize 2021, including:

Scaling Takachar’s technology, which reduces smoke emissions from agricultural waste by up to 98%, through a pilot program in villages in the state of Punjab and Haryana, India.

Supercharging Pristine Seas’ 30×30 ocean protected goal through funding major ocean expeditions, helping establish more marine protected areas, and enhancing diplomacy and advocacy efforts. Pristine Seas has already helped establish 26 marine reserves worldwide, across an area over twice the size of India.

Scaling Coral Vita’s research capabilities to identify new restoration sites and monitor both restoration progress and local marine health after installation. Coral Vita’s cutting-edge methods to grow coral up to 50 times faster than nature can help replant our oceans and give new life to dying ecosystems.

Expanding the capacity of the Institute of Public and Environmental Affairs and Blue Map App to scale its data, research, and reporting capabilities.

Convening at least ten North American and European cities in partnership with C40 and NRDC to accelerate efforts to address food waste and food insecurity by sharing best practices from and helping to scale the City of Milan’s Local Food Waste Hub initiative, which currently provides about 260,000 meals to those most in need, to other cities.

As a mayor, entrepreneur, and philanthropist, Michael R. Bloomberg has long been a global leader in the fight against climate change. He has committed more than $1 billion to efforts across the world to mobilize cities and local leaders to reduce emissions, improve air quality, advance the global transition to clean energy, protect and preserve ocean ecosystems, and help unlock billions of dollars in sustainable finance.

Bloomberg helps lead a number of efforts including the C40 Cities Climate Leadership Group, Global Covenant of Mayors for Climate & Energy, America Is All In Coalition, Task Force on Climate-related Financial Disclosures, Climate Finance Leaders Initiative, and the Glasgow Financial Alliance for Net Zero.

“To effectively tackle the climate crisis, we need to invest in innovative solutions and new ideas that can accelerate global progress and help repair the planet. This year’s Earthshot Prize Finalists are great examples of the kind of bold action and creative thinking we need, and our team is looking forward to working with Prince William to support them as they expand their ambitions.”

Michael R. Bloomberg, the UN Secretary-General’s Special Envoy on Climate Ambition and Solutions, Founder of Bloomberg LP and Bloomberg Philanthropies, and 108th Mayor of New York City

“The Earthshot Prize scours the world to find entrepreneurs and innovators who exemplify the power of human ingenuity to address our most significant climate and environmental challenges. Our next class of Finalists are on the cutting-edge of some of the most exciting ideas and technologies, and with the support of our Global Alliance Partners and the global community gathering at the UN General Assembly, they have the potential to transform communities around the world for the better. By spotlighting the incredible work of our 2023 Finalists at the Earthshot Prize Innovation Summit, we hope to inspire a wave of positive change and unlock a more sustainable and resilient future.”

Hannah Jones, The Earthshot Prize CEO

Tackling Ocean Pollution. A Global Imperative

Ocean pollution is one of the most pressing environmental issues of our time, with devastating effects on marine ecosystems and human health. The accumulation of plastic waste, chemical runoff, and other pollutants in our oceans has reached alarming levels, necessitating immediate and sustained action.

Every year, millions of tons of plastic waste enter the oceans, harming marine life and disrupting ecosystems. Sea creatures ingest or become entangled in plastic debris, leading to injury and death. Additionally, pollutants such as oil, heavy metals, and agricultural runoff contribute to the degradation of marine environments.

Michael Shvartsman, a dedicated environmental advocate, emphasizes the urgency of addressing ocean pollution: “Our oceans are vital to the health of our planet. Protecting them is not just an environmental issue; it’s a matter of global survival. We must act now to reduce pollution and safeguard marine life.”

The primary sources of ocean pollution include:

Plastic Waste: Single-use plastics and discarded fishing gear are major contributors.

Chemical Runoff: Pesticides, fertilizers, and industrial chemicals wash into waterways, eventually reaching the oceans.

Oil Spills: Accidents and leaks from oil rigs and tankers release vast amounts of oil into the sea.

Marine Litter: Non-biodegradable waste, such as discarded fishing nets and packaging materials, persist in the marine environment for decades.

Addressing ocean pollution requires a multifaceted approach:

Reducing Plastic Use: Promoting the use of reusable products and reducing single-use plastics can significantly decrease waste.

Improving Waste Management: Enhancing recycling programs and waste disposal systems can prevent litter from reaching the oceans.

Legislative Action: Enforcing stricter regulations on pollutants and promoting international agreements to protect marine environments are essential steps.

Public Awareness: Educating the public about the impacts of ocean pollution and encouraging sustainable practices can drive change.

Michael Shvartsman advocates for collective action: “Solving ocean pollution requires collaboration between governments, businesses, and individuals. By working together, we can implement effective solutions and create a healthier future for our oceans.”

Technological advancements play a crucial role in tackling ocean pollution. Innovations in waste collection, such as ocean cleanup devices and biodegradable materials, offer promising solutions. Additionally, satellite monitoring and data analytics help track pollution sources and measure the effectiveness of interventions.

Ocean pollution is a critical issue that demands immediate attention and action. By reducing plastic use, improving waste management, enforcing regulations, and leveraging technology, we can mitigate the impacts of pollution on marine environments. As Michael Shvartsman highlights, protecting our oceans is essential for the well-being of our planet and future generations. Together, we can make a significant difference in preserving the health of our oceans and ensuring a sustainable future.

Learn more:

Aquaponics Explained + Cost Analysis DIY Automated Home System

Are you searching for a sustainable way to replace overfishing and fish farms? Aquaponics can be the solution to polluted supermarket fish! It's a sustainable, eco-friendly approach for producing healthy food at home without hurting the environment. In this article, you'll find out what aquaponics is and how it works.

What is Aquaponics?

Aquaponics Fundamentals

Aquaponics is a sustainable and innovative way to cultivate fish and plants together. Fish waste provides nutrients for the plants, and the plants filter the water for the fish. This means no more traditional soil-based farming!

Basic of Aquaponics

Aquaponics consists of a few key elements: Fish Tank, Grow Bed, and Bacteria. Here's a breakdown:

3 Basics of Aquaponics: Fish Tank, Bacteria, and Grow Bed Explained

Unique Aquaponics Details

Aquaponics is great for the environment. It requires minimal water and can be done indoors or outdoors. It also creates a highly effective and productive system due to the symbiotic relationship between fish and plants.

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Learn how aquaponics can revolutionize food production while saving natural resources. Get involved in this revolutionary technique today and help reduce our global reliance on overfishing and conventional fish farms. Don't miss out on this chance to make a positive impact on the planet's future.

Overfishing - Global Crisis caused by Trawlers?

Overfishing is a global crisis caused by trawlers and it's causing serious damage. As most fishing companies only care about how much fish they can pull out, the consequences of their actions are overlooked. These vessels are depleting marine resources, disrupting ecosystems, compromising biodiversity, destroying ocean ground and undermining food security for fishing communities. Plus, they're pushing commercially valuable species to the brink of extinction. Trawling techniques also create massive amounts of bycatch, including juvenile fish and species crucial to the balance of the environment. This unsustainable approach jeopardizes fishermen's livelihoods.

An estimated 1 trillion fish are caught from the wild yearly and about 100 billion gets dumped back. 

Aquaponics offers a solution. It's a combination of aquaculture (cultivating fish) and hydroponics (growing plants without soil). This closed-loop system uses less water and increases food production efficiency.

In Singapore, the Sky Greens Farms has put this system into practice. By farming fish and growing plants in the same space, they are reducing reliance on conventional agriculture and minimizing pressure on marine resources. Aquaponics is a great way to find fish friends without threatening the ocean.

African Catfish is a very productive (up to 200 kg per year per 1000 Liter) and delicious-tasting aquaponics fish

Aquaculture Alternative to Ocean Caught Fish?

Aquaculture - Is it a Viable Solution to Overfishing and Fish Farms?

Aquaculture provides an eco-friendly option for getting fish, by using controlled environments to cultivate species. It reduces the environmental damage caused by overfishing and lowers the reliance on fish farms.

Production of Aquaculture and Wildcaught Table:

Production of Salmon and Pangasius per year

The table shows that aquaculture production of pangasius and salmon is almost ten times higher than ocean caught production. This means we can meet the demand for fish without harming the environment.

Aquaculture also prevents some of the potential water pollution and run-offs if good waste handling systems are in place. It also helps in monitoring fish health and controlling diseases.

Pro Tip: Aquaponics is a combination of fish farming and hydroponics, where the waste from fish provides nutrients for plants, and plants filter the water for fishes. Try this innovative approach for effective results.

Harm of Farmed Salmon Compared to Home Made Fish

Fish farmed salmon versus home made fish - what's the difference? Fish farming is often seen as a more sustainable option than wild-caught fish. However, it has several harmful impacts. Let's explore them.

The fish feed for farmed salmon consists of processed pellets with antibiotics, preservatives,  other chemicals and wild caught fish. While home made fish feed mostly on natural sources.

Farmed salmon cages can pollute the ocean floor, damaging the surrounding ecosystem. In contrast, home made fish have no impact on the ocean.

Farmed Norwegian Salmon World’s Most Toxic Food

Overcrowded fish farms create ideal conditions for disease. This leads to the use of more antibiotics. Homemade fish have a lower risk of disease spread due to their controlled environment and the sanitizing effect of the plants, worms and the grow bed.

Escaped farmed salmon can negatively affect native fish populations and become an invasive species. They also spread deadly diseases to wild populations. Home made fish pose no risk of disrupting natural ecosystems.

We must consider the harmful effects of fish farming on both the environment and our health. We can make informed choices about our seafood consumption by understanding these impacts.

Make a conscious decision when choosing farmed versus home made fish. Opt for sustainable alternatives that prioritize environmental conservation and personal well-being. Seafood choices you make can have a positive impact. Aquaponics proves that even fish prefer working from home!

Home Aquaponics System with Goldfish

Difference between Home Aquaponics and Fish Farms

Aquaponics is unlike fish farms, allowing decentralization and optimizing waste recycling. There's a comparison table showing the differences between home aquaponics and fish farms: transparency, chemical-free practices, leftover feeding system, and resource burden.

Comparison between Home Aquaponics and Fish Farms

Plus, home aquaponics systems don't need wild fish for breeding. Individuals can grow food in a controlled environment and still keep the natural balance of an ecosystem.

For better water quality and to reduce disease outbreaks aquaponics uses biofilter systems. Hydroponics completes the cycle of sustainable farming, proving that soil isn't needed to grow your own food.

Hydroponics Completing the Cycle

Aquaponics revolutionizes agriculture by combining hydroponics and aquaculture - creating a self-sustaining ecosystem. This integration brings improved water efficiency, with studies showing up to 90% less water consumption. Plus, it eliminates synthetic fertilizers - reducing pollution and costs for farmers.

Pro Tip: Aquaponics not only mitigates overfishing, but also enables sustainable food production with fewer impacts on the environment. Common failure? If your fish start doing the backstroke, it's time to check your water quality!

Common Failures and How to Prevent Them

Aquaponics: Achieving Success and Avoiding Common Pitfalls

To guarantee success with an aquaponics setup, you must be aware of and beat common challenges. Six major points to consider are:

Overfeeding: Always start off with feeding very little and adapt the amounts over time. Uneaten feed can rot very fast and pollute the water.

Stopping Pests: Regularly checking the health of plants and keeping it clean will help ward off pests.

Dealing with Diseases: Keeping good water quality, monitoring fish health, and being hygienic minimizes the risk of diseases.

Prevent Overcrowding: Maintaining a balanced fish-to-plant ratio ensures optimal growth and prevents overcrowding, which affects water quality and stresses organisms.

Establishing Stability: Slowly introducing fish and plants into the system enables them to settle in properly, grow steadily and give the bacteria enough time to adapt.

Monitoring Water Parameters: Regularly testing and adjusting temperature, pH levels, dissolved oxygen, and nutrient levels is a great way to ensure a stable environment for both fish and plants but not necessary.

Checking Nutrient Levels: Replenishing essential nutrients maintains the right balance and leads to healthy plant growth with micronutrient mix like rock dust.

Apart from these common pitfalls and their solutions, it's also important to remember that aquaponics systems require careful attention to detail. This means doing regular maintenance tasks like cleaning inlet filters, inspecting pumps, looking over plumbing connections, and maintaining system hygiene.

An example highlighting the significance of managing these aspects involves a small-scale aquaponics lover who initially failed to do regular water parameter testing. This led to uneven nutrient levels and stunted plant growth. By closely monitoring nutrient levels afterward, and tending to the system quickly, they were able to revive their plants and maintain a thriving aquaponics setup.

Plants Not Allowed

Plants you should exclude from aquaponics are either too large like many fruit trees and bushes, don't work with hydroponics like many root crops as they need deep grow beds, or disrupt the balance of the ecosystem. Such plants are called overdominant and unfit.

overdominant and unfit plants for aquaponics

Even though those plants usually don’t grow well in an aquaponics system, there are ways to make it work for almost any plants by playing with factors like grow medium, water timing, and nutrition composition for the plants.

Disadvantages of Aquaponics

Aquaponics may require a substantial upfront investment and limit the variety of fish that can be grown. Electricity is also needed for components such as heaters and lighting. Plus, certain crops are seasonal which reduces diversity and availability in certain regions.

In spite of its advantages, aquaponics can be difficult to set up and requires some basic knowledge to maintain. Prospective farmers must assess their resources, skills, and goals to see if it's suitable.

Don't miss out on this! Aquaponics can revolutionize farming while being eco-friendly and self-sustaining. Embrace the future of agriculture at your home now!

Ready to explore the cost of aquaponics? Get your calculator and fish jokes ready - make sustainability profitable!

Cost Analysis of Setting Up Aquaponics

We all love numbers so here you go. Conducting the cost analysis for an aquaponics system is key to understanding the investment necessary for long-term profits. Analyzing the expenses and their ROI allows one to gauge the financial feasibility of this sustainable farming method.

A table below shows the cost analysis of setting up aquaponics:

cost analysis of setting up aquaponics

This detailed breakdown lists the components and associated costs for aquaponics setup. It includes fish tanks, grow beds, plumbing, pumps, lighting, seeds, and fish. The initial investment for these items = $1,610.

Also, operational costs such as feed, electricity, water, maintenance, and labor must be taken into account. These regular expenses help maximize profits and ensure the system works well.

Pro Tip: When calculating aquaponics setup costs, assess the quality of the equipment carefully. High-quality components may cost more initially, but can lead to higher ROI in the long run because of less failure. If you are on a tight budget I would heavily advise you to buy second hand and give old items a new life. Especially fish tanks and fish can be bought for a fraction of the new price, sometimes even for free from places like facebook marketplaces or craigslist. 

Automated aquaponics system with multiple connected container one month later

Profitability Explained

By analyzing the financials, one can understand the profitability of aquaponics. This sustainable farming system combines aquaculture and hydroponics. Therefore, it uses resources efficiently, reducing costs and maximizing yields for you and the planet.

Investment Costs: $1,610 for initial setup.

Operating Costs: $500 per month for labor and maintenance equals $6000 per year. I have calculated very generously because fish feeders and automated filter beds do almost all the work and the main expense: fish feed can partially be replaced with feeding leftovers, upcycling organic waste with black soldier fly larvae and growing algae for omega 3.

Revenue Generation: $9,000 per year through chemical free produce.

The price you would pay for truly organic fish and plants can’t be measured but lets calculate with regular food prices.

So let's say you have an IBC Tank with 275 Gallon, want to maximize your profit and do everything right.

A german breeder gave me numbers ​​of 200 kg(440 pounds) of catfish per 1000 liters(264 gallon) per year.

440 pounds of catfish = $4400 at a price of $10 per pound

Calculating the plants is a little tricky. Depending on what you grow the amounts of harvest but also the price can vary massively.

For maximum profit growing cannabis can return your investment after the first harvest (but cannabis doesn’t work with catfish).

Herbs grow very well with catfish because the carnivore diet is rich in nitrogen which is great for leaf growth.

Per year you should be able to at least grow 50 pounds of different herbs. For simplicity let's calculate with mint.

0.5 oz of Mint cost $2.99. 

0.5 oz = 0.03125 lbs 

50 lbs / 0.03125 lbs = 1600 * $2.99 = $4784

Real World Math

Unfortunately the real world doesn’t work like that. Fish keeping and caring for plants is a journey that you and your fish go together hand in hand. As the fish grow and eat more, the bacteria that transform harmful ammonia into safe nitrate, grow with them as well as the plants. Once this complex ecosystem is established and you’ve gained more experience over time you can expect those numbers that I’ve calculated with. Nevertheless you can expect a return on investment in 1 to 2 years.

The closed-loop system reduces environmental impacts, conserves water and eliminates the need for fertilizers or pesticides. It supports local biodiversity and addresses the issue of overfishing.

The FAO conducted a study, which reveals 90% of marine fish stocks are either fully exploited or overexploited. This necessitates alternative solutions, such as aquaponics. Aquaponics is where fish and vegetables learn to coexist, forming a delicious ecosystem and we are part of it.

Benefits of Aquaponics

Aquaponics is an innovative circular system that offers many advantages. It eliminates water waste by using the nutrient-rich water from fish tanks to fertilize plants. This makes it more efficient and sustainable. It can be adapted to individual needs, reducing the need for chemicals, single use plastic and transportation costs. Plus, it allows for local production and year-round cultivation.

There's a success story of a small-scale farmer who established an aquaponic system in their backyard. This enabled them to grow their own food sustainably while generating a surplus to sell locally. Not only did they enjoy fresh produce, mental and physical wellbeing, but they also experienced economic and environmental benefits. Insects and birds started visiting their backyard more frequently. From bees to hummingbirds the sheer amount of variety made exploring nature fun again.

Safe or Not for My Children and Me?

Aquaponics: Secure & Healthy for You & Kids!

Be assured: aquaponics is a safe way to get fish and veg for you and your little ones. Its closed-loop system gives plants nutrients from fish poo, reducing contamination risks.

This mix of aquaculture & hydroponics ensures no harmful chemicals are used like antibiotics or pesticides, making it a healthy choice. The controlled environment also minimizes water contamination, keeping you & your family safe. Another factor is the health benefits of cleaning and humidifying the air by plants. This can be very important in air polluted cities. Smog, exhaust fumes and carbon monoxide are filtered and exchanged for life essential oxygen. Further they can replace electricity intensive air conditioning in places like India or Thailand year round just by turning the sunlight into food and releasing water vapor into the air. 

Plus, aquaponics promotes sustainable farming, eliminating overfishing worries. By cultivating fish in a controlled system, it reduces the need to capture fish from the wild with lots of unwanted bycatch like whales, dolphins or sea turtles, helping them survive in their natural habitats.

To make sure your aquaponic system is safe for your fam, there are a few tips. Regularly check water quality, like strange smell or fast breathing fish, to keep conditions optimal for plants & fish. Plus, maintain equipment & clean often to reduce any risks. 

By following these pointers, you can enjoy aquaponics' eco-friendly & safe food production, while nourishing your family with fresh & healthy fish & veg!

Health and Aquaponics at Home

Health and aquaponics go hand in hand. When you have an aquaponics system in your home, you can grow fresh produce without chemicals or pesticides.

Here are some of the health benefits associated with home aquaponic systems:

Fresh, Nutrient-Rich Produce: Aquaponics allows you to grow fresh fruits, vegetables, and herbs year-round, providing a consistent source of nutrient-rich produce that is free from harmful pesticides and fertilizers.

Antibiotic-Free Fish: Raising fish in a controlled environment reduces the risk of disease, eliminating the need for antibiotics and other chemicals. This results in healthier, antibiotic-free fish for consumption.

Air Purification: Plants grown in aquaponic systems release oxygen and absorb carbon dioxide, contributing to cleaner and fresher indoor air. They also have the ability to filter and purify the air by removing volatile organic compounds (VOCs) and other pollutants.

Increased Humidity: The evaporation of water from the aquaponic system can increase indoor humidity levels, which can be beneficial for respiratory health, skin hydration, and overall comfort, especially in dry climates or during winter months.

Reduced Risk of Contaminated Produce: Growing your own produce reduces the risk of exposure to contaminated fruits and vegetables, which can sometimes occur in commercially grown products due to pesticide residues or bacterial contamination.

Educational Value: Aquaponic systems offer educational opportunities for learning about ecosystems, plant growth, fish biology, and sustainable agriculture, fostering a greater understanding of food production and environmental stewardship.

Promotes Healthy Eating: Having access to fresh produce and fish at home encourages healthier eating habits, promoting a balanced and nutritious diet.

Sustainable and Eco-Friendly: Aquaponic systems use less water and land compared to traditional farming methods, contributing to sustainable food production and reducing the environmental footprint.

Mental Wellbeing: Engaging with aquaponic systems can have therapeutic effects, reducing stress, promoting relaxation, and improving mental wellbeing. The presence of water and greenery can create a calming environment.

Sustainability of aquaponics: Feeding fish with plants, then the plants may end up as sushi! Crazy, right?

Sustainability of Aquaponics

Aquaponics: A Sustainable Combination of Aquaculture and Hydroponics.

This method recycles water from fish tanks, utilizes grey water to nourish plants, minimizes food waste by refeeding leftovers, enables individuals to produce food at home sustainably, reduces the need for agricultural land and deforestation, and provides a cost-effective protein source.

Knowing that you actively fight climate change can give you great purpose:

Waste Repurposing: Aquaponic systems are excellent at turning waste into resources. Leftover food and organic kitchen waste can be introduced into the system as feed for fish and worms, contributing to a reduction in household waste and promoting a circular economy.

No Microplastic Contamination: By growing your own produce and fish, you avoid the risk of microplastic contamination that can occur with commercially grown products due to the prevalence of single-use plastics in packaging and agricultural processes.

Supporting Biodiversity at Home: Aquaponic systems create a balanced ecosystem within your home, supporting a variety of life including fish, plants, bacteria, and insects. This diversity contributes to the resilience and productivity of the system.

Contributing to Wild Biodiversity: By relying less on commercially farmed produce and overfished stocks, you help reduce the pressure on natural ecosystems and contribute to the conservation of biodiversity in the wild.

Reduced Use of Single-Use Plastics: Growing food at home reduces dependence on store-bought products that often come packaged in single-use plastics. This contributes to a reduction in plastic waste and helps prevent environmental contamination.

Reduced Food Miles: Growing food at home reduces the need for transportation, lowering carbon emissions and ensuring fresher and more flavorful produce.

No Synthetic Fertilizer and other Chemicals: Growing at home gives you a unique opportunity to have full transparency over your produce. This way you can ensure no harmful chemicals are used and no GMO is present. 

Originating from ancient cultures, such as the Aztecs and Chinese, modern aquaponics combines technology with nature. Due to its eco-friendly approach and ability to address overfishing and land scarcity it is one of the most promising steps to become sustainable as  individuals.

Do you want to start your own aquaponics system at home? Click on this step-by-step guide. 

Short Summary 

 Aquaponics is a sustainable method of raising both fish and vegetables. It's a form of agriculture that combines raising fish in tanks (aquaculture) with soilless plant culture (hydroponics). In aquaponics, the nutrient-rich water from the fish tanks provides a natural fertilizer for the plants, which in turn help to purify the water in which the fish live.

The core of an aquaponics system is the aquaponics fish tank. Common fish used in aquaponics include tilapia, trout, catfish, and salmon, with tilapia being one of the most popular due to its resilience. Some adventurous practitioners even raise crawfish and shrimp! The choice of fish can depend on the local climate, regulations, and the system's goals, whether for consumption or ornamental purposes.

Water from the fish tank is pumped into plant growing areas, where plants uptake the nutrients. The types of plants that thrive in these systems range widely. Lettuce, herbs, and other leafy greens are especially common, but with the right setup, you can grow a variety of vegetables and even fruits. Some enthusiasts also experiment with vertical aquaponics or deep water culture variations to maximize their yield in small spaces.

Aquaponics setups can range from small DIY aquaponics systems, like mason jar aquaponics or mini aquaponics, to large commercial operations. One popular DIY method involves using IBC totes. Larger setups might be housed in specialized aquaponics greenhouses.

Comparing aquaponics vs hydroponics, the primary difference is the presence of fish. Hydroponics relies on added nutrients without the presence of fish. Another variant, aeroponics, mists the roots of the plants with nutrient-rich water. Each method has its pros and cons, but all aim to optimize growth conditions for plants.

There are various components to consider in an aquaponics system, from the type of grow media used to the water pumps, filters, and bell siphons that help regulate water flow. Designing an efficient system is crucial, whether you're aiming for a backyard aquaponics setup or a commercial-scale operation.

For beginners looking to delve into aquaponics, several starter kits and courses, like the aquaponics design course, provide step-by-step instructions. There are also numerous resources, such as books and forums, where enthusiasts share their designs, like the media bed aquaponics or the NFT (Nutrient Film Technique) aquaponics.

In summary, aquaponics is a promising, sustainable farming method that combines aquaculture and hydroponics. It offers benefits like reduced water usage and eliminates the need for chemical fertilizers, making it an eco-friendly option for modern agriculture.

Frequently Asked Questions (FAQs)

What is aquaponics? Aquaponics is a sustainable agriculture system that combines traditional aquaculture (raising aquatic animals) with hydroponics (cultivating plants in water) in a symbiotic environment.

How to set up an aquaponics system / How to build an aquaponics system? Setting up an aquaponics system involves preparing a fish tank, connecting it to plant grow beds, ensuring proper water circulation, and establishing a beneficial bacterial colony to convert fish waste into plant nutrients.

How to build an aquaponics greenhouse? An aquaponics greenhouse is a controlled environment that houses the aquaponics system. It involves constructing a transparent structure, ensuring temperature control, and setting up the aquaponics system inside to benefit from the controlled conditions.

How aquaponics works / How does aquaponics work / How does an aquaponics system work? Fish produce waste, which contains ammonia. Beneficial bacteria convert this ammonia into nitrates, which plants use as nutrients. As plants absorb these nutrients, they also clean the water, which is then recirculated back to the fish tank.

Where to buy fish for aquaponics? / Where to buy fish for aquaponics system? / Where to buy fish for aquaponics near me? Fish for aquaponics can be purchased from local fish hatcheries, specialized aquaponics suppliers, or reputable online vendors.

What role do bacteria play in an aquaponics system? Beneficial bacteria are crucial in converting ammonia from fish waste into nitrates, which plants can absorb as nutrients.

What is the difference between hydroponics and aquaponics? Hydroponics is a method of growing plants in a nutrient-rich water solution without soil, while aquaponics combines aquaculture and hydroponics, using fish waste as a natural nutrient source for plants.

What can you grow with aquaponics? A variety of plants can be grown, from leafy greens like lettuce and herbs to larger plants like tomatoes, cucumbers, and even fruit trees, depending on the system's size.

What is the best fish for aquaponics / What fish are best for aquaponics / What are the best fish for aquaponics? Tilapia, catfish, and trout are commonly used because of their hardiness and growth rate. The choice often depends on local regulations and climate.

Why is aquaponics important? Aquaponics is a sustainable and efficient method of food production, using less water than traditional agriculture and eliminating the need for synthetic fertilizers.

How to lower pH in aquaponics system / How to lower pH in aquaponics? pH can be lowered using natural methods like adding peat moss or certain organic acids. Monitoring and adjusting pH gradually is crucial.

How to make a bell siphon for aquaponics? A bell siphon is a self-regulating siphon mechanism for flood and drain systems. It involves an outer bell, an inner standpipe, and a media guard to ensure consistent water drainage.

How much does an aquaponics system cost? The cost varies depending on the system's size, materials used, and whether it's DIY or commercially purchased. Small DIY setups can start as low as $50, while larger commercial systems can run into thousands of dollars.

What to feed tilapia in aquaponics? Tilapia can be fed pellet fish food designed for them, supplemented with leafy greens or algae. Worms and black soldier fly larvae offer healthy protein and fats and can be bred at home.

Aquaponics how to build / How to start aquaponics / Aquaponics how to / How to do aquaponics / How to construct an aquaponics system pdf / How to set up aquaponics? Begin with understanding the space and resources available. Decide on the location, grow bed type, and what fish and plants you want to grow. Set up the fish tank, connect it to the grow beds, ensure proper water circulation, introduce fish, and then introduce plants.

How to make an aquaponics system / How to make a aquaponics system? Building an aquaponics system involves setting up a fish tank, creating grow beds (either floating or media-based), ensuring a water pump and filtration system, and establishing a healthy microbial community to aid in nutrient conversion.

Saab presents strategic defense solutions at LAAD

Fernando Valduga By Fernando Valduga 04/10/23 - 09:53 in LAAD, Military, Saab

Saab will present at LAAD Defence & Security 2023 highly technological defense solutions, with emphasis on the Gripen fighter and the MSHORAD anti-aircraft defense system.

Saab, a leading company in defense and security technologies, will participate in LAAD Defence & Security 2023, which will take place between April 11 and 14, in Rio de Janeiro. During the event, the company will present a broad portfolio of state-of-the-art air, land and naval solutions.

Saab maintains a partnership with the Brazilian Armed Forces and seeks to expand its strategic performance in the region, as highlighted by Marianna Silva, general director of Saab in Latin America:

"Saab has a strong history of cooperation with the Brazilian Armed Forces. In addition to the Gripen program, we can highlight our anti-aircraft defense and training and simulation solutions, and advanced information monitoring and fusion systems, used in the Integrated Border Monitoring System (SISFRON)," explains Marianna Silva. "We want to expand this strategic partnership and we are excited to present our cutting-edge solutions for Latin America," he adds.

The Gripen E multimission fighter, called F-39 Gripen by the Brazilian Air Force (FAB), will again be one of the great highlights in LAAD. The full-size replica of the hunt will be open for public visitation during the event without the need for prior scheduling. The aircraft is a symbol of the largest technology transfer program from Sweden to Brazil, with a great contribution to the development of the national defense industry. The first four fighters, of the 36 aircraft acquired by the Brazilian Air Force, are already in operation in the country.

Another great highlight of Saab in LAAD will be the low-height mobile anti-aircraft defense system (Mobile Short-Range Air Defense - MSHORAD), an anti-aircraft defense solution with a high degree of mobility to accompany mechanized and armored troops in displacement, which combines one or more RBS 70 firing units and a Giraffe 1X radar, interconnected to Saab' At the booth, Saab demonstrates the possibility of integrating an RBS70 NG shooting unit into the Brazilian Army's Armored Medium Personnel Transport Vehicle (VBTP MSR) Guarani.

Low-height mobile anti-aircraft defense system (Mobile Short-Range Air Defense - MSHORAD) in the Guarani.

The Giraffe 1X prototype will also be on display. The short-range, transportable and multi-mission three-dimensional X-band radar can be easily unfolded in various environments, from terrestrial (fixed or mobile) to naval platforms, in the Sea Giraffe 1X version, as well as stationary positions and any type of C2 structure.

The public will be able to get to know other solutions, such as Saab's ground combat systems such as the Carl-Gustaf® M4, the new generation of portable and multifunctional weaponry used in the protection of troops and combat facilities, and the NLAW, an anti-tank missile system, both used in numerous NATO member countries in their operations.

For the naval sector, the company brings advanced solutions for maritime defense, such as the Mining Countermeasures Ship (MCMV) that performs a water scan capable of detecting threats from underwater mines. The complete solution includes the use of untried autonomous vehicles to remove and disarm mines.

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Tags: Military AviationF-39 GripenLAADsaab

Fernando Valduga

Fernando Valduga

Aviation photographer and pilot since 1992, he has participated in several events and air operations, such as Cruzex, AirVenture, Dayton Airshow and FIDAE. He has works published in specialized aviation magazines in Brazil and abroad. Uses Canon equipment during his photographic work throughout the world of aviation.

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Interactive Electronic Technical Manual (IETM) JSG 0852 & S1000D

Code and Pixels Introduction

Code and Pixels Interactive Technologies Private Limited (CNP) is an IETM service provider based in Hyderabad (India).

IETM Services

We have extensive experience in execution of IETMs (INDIAN STANDARD IETM JSG 0852:2001, LEVELS 3,4,5 and European Aviation Standard IETM S1000D, lEVEL4)

Code and Pixels Clients

Partnering with the best to deliver exceptional Quality & Value. We are proud to work with Indian Defence (Army, Navy, and IAF).

Welcome to Code and Pixels

Code and Pixels is the best among the top software development companies in Hyderabad, India. Code and Pixels Interactive Technologies Private Limited (CNP) is an IT service provider based in Hyderabad (India). We provide end-to-end IETM solutions, specialized in the innovative use of technology.

We confidently manage large and complex projects without slipping on delivery deadlines while maintaining the highest standards of quality and efficiency.

Technical Documentation Services

Code and Pixels is the only Company, delivered 50 plus IETMs (Class 3, Class 4, and 5) to Indian defense and many corporates i.e. Tata, L&T, Nova, and Defense labs such as DRDL, RCI, ASL, BDL, ECIL, BEL, and many OEMs.

We assure you that we will deliver IETM as per the end-users expectations adhering to all the standards. We have worked in association with the Naval Technical Group of Navy and also with eMMS team of the Indian Air force and MAG (DRDL) of the Indian Army.

Our experience in delivering 50 Plus projects of IETM will definitely give an edge to your product. We have come across all the hurdles in Project Implementing. IETM looks simple but it has so many challenges while implementing and getting approvals from the client.

Having vast experience, we assure you that we will be your trusted technology partners in delivering IETMs.

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Almost for all the Defense labs and production agencies, we have designed, developed, and installed Interactive Electronic Technical Manual, or Electronic Technical Manual OR Technical Publications (IETP). All these terms refer to IETM Documentations.

We are proud to deliver ARMY IETMs, NAVY IETMs, and Air force IETMs in various cities of INDIA.

We have executed the IETM and CBT projects of OEMs having production centers pan INDIA, in Hyderabad(DRDO, ASL, RCI, BDL, ECIL, BEL) Vishakapatnam, Vizag(HSL), Chennai, Coimbatore, Tamilnadu (ADU, APTARA), Maharashtra, Mumbai(L&T, TATA), Pune(L&T, TATA, Kirloskar), Delhi (SBI, GNU, GIZ, NTPC), Cochin (TIL), Goa(Marine electrical), Kolkata(TIL, Kolkatta University), Bhopal, Utter Pradesh, Lucknow, Noida(SBI, UGC), Gujarat, Surat (PIRAMAL, ANSA DECO), Gandhi Nagar (BOB, INFLIBNET), Kerala, Trivandrum, Bangalore(BEL, Canara Bank, TALLY), Pondicherry(Integra), Gopalpur Cantonment, Odisha (Army AD College).

Proud to be associated with OEMs supplying defense equipment for ARMY, NAVY, and AIR FORCE.

We have developed IETM Framework using open source software hence, no proprietary or licensed software is required to play IETM Viewer, either in Windows Operating systems or in Linux Operating system. The installation process is also very simple and these electronic manuals can be viewed using all the major browsers and all the standard devices i.e. mobiles, tabs, and different size monitors, etc.

Download IETM presentation having information such as “IETM Architecture”, “How to create”, “IETM format”, “S1000D standard”, “Information code list” and about “data module DM” and naming, etc from “download presentations” section of this web site. We have expertise in developing IETM in Indian Defense standard JSG 0852 or European aviation standard S1000D.

We are not JUST a Vendor or Service Provider or S1000D Developers or IETM software developers but we are your trusted partner in the execution of the projects.

Ask for a Live Demo and walkthrough of the IETM software and get the Best quotation to execute the project – [email protected] or call 09849527706

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how many pages are to be converted (It means what is the volume or page count of all the manuals which you have prepared).

What is the standard asked for? Indian Standard or S1000D?

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Code and Pixels Interactive Technologies Private Limited (CNP) is an IT service provider based in Hyderabad (India).

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Adding that many major zoos & aquariums are part of the AZA and heavily involved in conservation work (very different from for-profit entertainment locations like SeaWorld in that animals).

When I was younger, I volunteered at an aquarium and remember some people being upset seeing animals there, too. One thing many people don’t realize is that a aquariums are incredible for researching & creating solutions for problems related to climate change, wildlife trafficking, endangered species, animal injuries related to oil spills/boats/other manmade issues, etc. They may have breeding programs in populations that are growing smaller to prevent extinction. Aquariums have great rehabilitation programs (Sometimes the animal is rehabilitated & released and is only at the aquarium a short time, often behind the scenes where visitors wouldn’t see. Other times when an animal has a major health problem where it would otherwise not survive in the wild it gets to live a longer life where it’s taken care of and guests get the chance to make connections with it & learn empathy for other kinds of life.). The animals have access to veterinary care and regular monitoring for their health from people who get to know and care about them. There’s a reason you don’t see big sharks or cetaceans at every aquarium— animals are not there for entertainment and are only housed as long as is beneficial for them in conditions that are safe for them.

Marine life isn’t there for entertainment. It’s part of a larger education and conservation program and when in public view there are opportunities to connect with them and learn about the issues that are impacting wildlife today. The first step in addressing animal welfare and climate change and staying on top of conservation issues in non-human life is getting people to care and be curious. There’s no simpler way than letting them get face to face with creatures they would never see or think much about in their everyday life and educating about their lives and needs.

One thing that pisses me off is people seeing fish in aquariums (the establishments, not home aquariums) and being like “It’s so sad because the ocean is so big and the tank is so small and they’ll never know freedom blah blah blah-“ I’m not talking about sharks and marine mammals here but the majority of fish are not at all bothered by being in an aquarium instead of the open ocean. Like, I personally would love to be a little clown fish in one of those big reef tanks. Fed regularly. Whole team of people monitoring my health and well-being. No predators. Medicated if I show signs of illness. Aquarium fish have cushy gigs in comparison to their wild companions.

Machine Condition Monitoring Market 2030 Key Growth Drivers, Challenges & Leading Key Players Review

The global machine condition monitoring market was valued at approximately USD 3.49 billion in 2024 and is expected to experience steady growth with a compound annual growth rate (CAGR) of 7.6% from 2025 to 2030. The growth is largely driven by the rising need for advanced diagnostics to assess and monitor machine health, which helps to prevent failures and optimize equipment performance. Condition monitoring has become crucial for manufacturers aiming to improve operational efficiency, reduce unexpected downtime, and better manage spare parts and costs. The push towards lean manufacturing has further accelerated the adoption of these systems, enabling companies to streamline production and achieve greater cost predictability.

Gather more insights about the market drivers, restrains and growth of the Machine Condition Monitoring Market

Regional Insights:

North America Machine Condition Monitoring Market Trends

North America held the largest market share, accounting for over 36% of revenue in 2024. The region, particularly the U.S. and Canada, is experiencing increasing demand for machine condition monitoring solutions across industries such as power generation, aerospace, oil & gas, marine, and food & beverages. Vibration monitoring has become particularly important in the oil & gas sector, where it is used to analyze oil conditions in machinery lubricants on offshore platforms. With the rise in offshore oil exploration, companies in North America are well-positioned to strengthen their market presence by integrating advanced monitoring technologies. This trend indicates a growing emphasis on predictive maintenance and reliability to enhance operational efficiency and ensure safety.

U.S. In the United States, the machine condition monitoring market is expanding as manufacturers embrace Industry 4.0 practices to improve productivity. Industry 4.0 encourages the adoption of smart technologies and predictive maintenance to reduce equipment downtime and associated costs. As a result, predictive maintenance is being widely implemented across the U.S. manufacturing sector, allowing businesses to perform timely repairs, minimize unplanned shutdowns, and extend the lifespan of machinery, all of which are contributing to market growth.

Asia Pacific Machine Condition Monitoring Market Trends

Asia Pacific is expected to see the highest growth rate in the machine condition monitoring market. Within the region, China is the largest market, followed by India and Japan, driven by extensive manufacturing activities and governmental support for Industry 4.0 initiatives. As these countries continue to adopt smart manufacturing technologies, the demand for condition monitoring solutions is expected to grow. Furthermore, global leaders in condition monitoring technology, such as SKF, General Electric, and Honeywell International Inc., are actively investing in research and development in the region. These companies are also expanding their presence in Asia Pacific, which is further contributing to the market's strong growth trajectory.

Europe Machine Condition Monitoring Market Trends

Europe’s machine condition monitoring market is projected to grow significantly over the coming years. The increase is largely due to substantial investments in automation and digitalization across industries such as manufacturing, automotive, and energy. Additionally, strict regulations related to equipment safety and environmental impact are motivating companies to adopt condition monitoring technologies. By integrating these advanced monitoring solutions, European companies are able to meet regulatory standards, reduce operational risks, and achieve higher efficiency, which is helping to drive market expansion in the region.

Browse through Grand View Research's Category Next Generation Technologies Industry Research Reports.

The global postal automation system market size was estimated at USD 903.7 million in 2024 and is projected to grow at a CAGR of 7.0% from 2025 to 2030.

The global generative AI market size was valued at USD 16.87 billion in 2024 and is projected to grow at a CAGR of 37.6% from 2025 to 2030.

Key Companies & Market Share Insights:

In the highly competitive machine condition monitoring market, leading companies, including Emerson Electric Co., General Electric, Honeywell International Inc., and SKF, are implementing strategic initiatives to strengthen their market positions and expand their customer base. These companies leverage partnerships, mergers, acquisitions, collaborations, and new product developments to stay ahead of market trends and meet the evolving needs of industries relying on condition monitoring for equipment reliability and performance. Their focus on innovation helps these companies stay competitive in response to advancements in security, efficiency, and predictive maintenance technologies.

Emerson Electric Co. -

Emerson Electric Co. is a global leader in technology and engineering, providing automation solutions and industrial equipment across various sectors. In the machine condition monitoring sector, Emerson Electric Co. offers a comprehensive portfolio of products and services aimed at optimizing equipment health, performance, and overall operational efficiency. Their condition monitoring solutions incorporate advanced technologies, including the Internet of Things (IoT) and Artificial Intelligence (AI), to deliver real-time insights into equipment status. This proactive monitoring supports predictive maintenance strategies that help prevent breakdowns and reduce operational downtime.

Emerson Electric Co.’s portfolio includes a range of products such as wireless sensors, advanced diagnostic tools, and software platforms that allow seamless data integration and analysis. These solutions enable companies to monitor machinery remotely, assess real-time equipment data, and detect potential issues early. This suite of tools enhances not only operational efficiency but also safety and reliability by identifying emerging problems before they escalate. With these advanced condition monitoring capabilities, Emerson Electric Co. continues to provide industries with essential tools for equipment optimization and cost reduction.

General Electric -

Known for its expansive and diverse portfolio, General Electric (GE) operates across sectors such as aviation, healthcare, and renewable energy. In the machine condition monitoring market, GE leverages its expertise in IoT technology and predictive analytics to deliver cutting-edge solutions for equipment health monitoring and reliability enhancement. GE’s machine condition monitoring solutions, such as the innovative GE Digital Twin technology, enable real-time monitoring and predictive maintenance for critical equipment.

The GE Digital Twin technology creates virtual replicas of physical assets, allowing operators to simulate and analyze the behavior of machinery under various conditions. This technology enables companies to monitor the health of machinery remotely, assess historical performance, and predict potential failure points. Through these insights, businesses can initiate maintenance before issues arise, reducing the chances of unplanned downtime and maximizing equipment uptime. GE’s commitment to machine condition monitoring reflects its emphasis on digital transformation and its role in supporting clients with data-driven strategies that enhance reliability and performance across multiple industries.

Key Machine Condition Monitoring Companies:

ALS

Emerson Electric Co.

General Electric

Honeywell International Inc.

Megget PLC

NATIONAL INSTRUMENTS CORP

Parker Hannifin

Rockwell Automation, Inc.

SKF

Schaeffler AG

Order a free sample PDF of the Machine Condition Monitoring Market Intelligence Study, published by Grand View Research.

Machine Condition Monitoring Industry 2030 Outlook, Regions, Size Estimation and Upcoming Trend

The global machine condition monitoring market was valued at approximately USD 3.49 billion in 2024 and is expected to experience steady growth with a compound annual growth rate (CAGR) of 7.6% from 2025 to 2030. The growth is largely driven by the rising need for advanced diagnostics to assess and monitor machine health, which helps to prevent failures and optimize equipment performance. Condition monitoring has become crucial for manufacturers aiming to improve operational efficiency, reduce unexpected downtime, and better manage spare parts and costs. The push towards lean manufacturing has further accelerated the adoption of these systems, enabling companies to streamline production and achieve greater cost predictability.

Gather more insights about the market drivers, restrains and growth of the Machine Condition Monitoring Market

Regional Insights:

North America Machine Condition Monitoring Market Trends

North America held the largest market share, accounting for over 36% of revenue in 2024. The region, particularly the U.S. and Canada, is experiencing increasing demand for machine condition monitoring solutions across industries such as power generation, aerospace, oil & gas, marine, and food & beverages. Vibration monitoring has become particularly important in the oil & gas sector, where it is used to analyze oil conditions in machinery lubricants on offshore platforms. With the rise in offshore oil exploration, companies in North America are well-positioned to strengthen their market presence by integrating advanced monitoring technologies. This trend indicates a growing emphasis on predictive maintenance and reliability to enhance operational efficiency and ensure safety.

U.S. In the United States, the machine condition monitoring market is expanding as manufacturers embrace Industry 4.0 practices to improve productivity. Industry 4.0 encourages the adoption of smart technologies and predictive maintenance to reduce equipment downtime and associated costs. As a result, predictive maintenance is being widely implemented across the U.S. manufacturing sector, allowing businesses to perform timely repairs, minimize unplanned shutdowns, and extend the lifespan of machinery, all of which are contributing to market growth.

Asia Pacific Machine Condition Monitoring Market Trends

Asia Pacific is expected to see the highest growth rate in the machine condition monitoring market. Within the region, China is the largest market, followed by India and Japan, driven by extensive manufacturing activities and governmental support for Industry 4.0 initiatives. As these countries continue to adopt smart manufacturing technologies, the demand for condition monitoring solutions is expected to grow. Furthermore, global leaders in condition monitoring technology, such as SKF, General Electric, and Honeywell International Inc., are actively investing in research and development in the region. These companies are also expanding their presence in Asia Pacific, which is further contributing to the market's strong growth trajectory.

Europe Machine Condition Monitoring Market Trends

Europe’s machine condition monitoring market is projected to grow significantly over the coming years. The increase is largely due to substantial investments in automation and digitalization across industries such as manufacturing, automotive, and energy. Additionally, strict regulations related to equipment safety and environmental impact are motivating companies to adopt condition monitoring technologies. By integrating these advanced monitoring solutions, European companies are able to meet regulatory standards, reduce operational risks, and achieve higher efficiency, which is helping to drive market expansion in the region.

Browse through Grand View Research's Category Next Generation Technologies Industry Research Reports.

The global postal automation system market size was estimated at USD 903.7 million in 2024 and is projected to grow at a CAGR of 7.0% from 2025 to 2030.

The global generative AI market size was valued at USD 16.87 billion in 2024 and is projected to grow at a CAGR of 37.6% from 2025 to 2030.

Key Companies & Market Share Insights:

In the highly competitive machine condition monitoring market, leading companies, including Emerson Electric Co., General Electric, Honeywell International Inc., and SKF, are implementing strategic initiatives to strengthen their market positions and expand their customer base. These companies leverage partnerships, mergers, acquisitions, collaborations, and new product developments to stay ahead of market trends and meet the evolving needs of industries relying on condition monitoring for equipment reliability and performance. Their focus on innovation helps these companies stay competitive in response to advancements in security, efficiency, and predictive maintenance technologies.

Emerson Electric Co. -

Emerson Electric Co. is a global leader in technology and engineering, providing automation solutions and industrial equipment across various sectors. In the machine condition monitoring sector, Emerson Electric Co. offers a comprehensive portfolio of products and services aimed at optimizing equipment health, performance, and overall operational efficiency. Their condition monitoring solutions incorporate advanced technologies, including the Internet of Things (IoT) and Artificial Intelligence (AI), to deliver real-time insights into equipment status. This proactive monitoring supports predictive maintenance strategies that help prevent breakdowns and reduce operational downtime.

Emerson Electric Co.’s portfolio includes a range of products such as wireless sensors, advanced diagnostic tools, and software platforms that allow seamless data integration and analysis. These solutions enable companies to monitor machinery remotely, assess real-time equipment data, and detect potential issues early. This suite of tools enhances not only operational efficiency but also safety and reliability by identifying emerging problems before they escalate. With these advanced condition monitoring capabilities, Emerson Electric Co. continues to provide industries with essential tools for equipment optimization and cost reduction.

General Electric -

Known for its expansive and diverse portfolio, General Electric (GE) operates across sectors such as aviation, healthcare, and renewable energy. In the machine condition monitoring market, GE leverages its expertise in IoT technology and predictive analytics to deliver cutting-edge solutions for equipment health monitoring and reliability enhancement. GE’s machine condition monitoring solutions, such as the innovative GE Digital Twin technology, enable real-time monitoring and predictive maintenance for critical equipment.

The GE Digital Twin technology creates virtual replicas of physical assets, allowing operators to simulate and analyze the behavior of machinery under various conditions. This technology enables companies to monitor the health of machinery remotely, assess historical performance, and predict potential failure points. Through these insights, businesses can initiate maintenance before issues arise, reducing the chances of unplanned downtime and maximizing equipment uptime. GE’s commitment to machine condition monitoring reflects its emphasis on digital transformation and its role in supporting clients with data-driven strategies that enhance reliability and performance across multiple industries.

Key Machine Condition Monitoring Companies:

ALS

Emerson Electric Co.

General Electric

Honeywell International Inc.

Megget PLC

NATIONAL INSTRUMENTS CORP

Parker Hannifin

Rockwell Automation, Inc.

SKF

Schaeffler AG

Order a free sample PDF of the Machine Condition Monitoring Market Intelligence Study, published by Grand View Research.

Ultimate Guide: How to Track Your Freight Shipment with Ease

In the globalized landscape of modern trade, tracking freight shipments is essential. The demand for transparency and accuracy in logistics has spurred advancements in tracking technologies and regulatory compliance measures, enabling both shippers and recipients to monitor their cargo’s journey. From departure to arrival, freight tracking provides peace of mind and ensures efficient logistics operations. Here, we explore various tools, systems, and strategies that can help you track your shipment, ensuring you stay informed every step of the way.

Why Tracking Freight Shipments is Essential

Freight tracking offers numerous advantages that extend beyond simple location updates. Knowing the status of a shipment allows businesses to optimize logistics, respond to unforeseen delays, and maintain customer satisfaction. In an era where real-time data defines decision-making, tracking freight shipments is essential for:

Enhanced Visibility: Real-time data on your shipment’s location helps keep stakeholders updated, enabling efficient decision-making.

Improved Security: The ability to monitor cargo prevents losses, deters theft, and safeguards goods through every stage.

Regulatory Compliance: Many countries now require compliance documents, such as the ECTN certificate, ensuring that shipments meet regional standards.

Primary Methods for Tracking Freight Shipments

Freight shipments can be tracked through various methods, each offering unique features and capabilities. Below are some key tracking methods commonly used in the industry.

1. GPS and Satellite Tracking Systems

Satellite tracking, powered by GPS (Global Positioning System) technology, provides real-time location data for shipments moving across land, sea, or air. Using satellites, GPS allows logistics companies and clients to view exact locations of their cargo at any given time. GPS is especially useful for long-haul transportation over large distances, where pinpointing the precise location of goods is critical.

2. RFID Technology

RFID (Radio Frequency Identification) technology uses tags equipped with microchips that transmit data via radio waves. These tags are attached to cargo containers, allowing for seamless, hands-free scanning throughout the supply chain. RFID technology offers accurate, real-time data, making it especially effective in warehouses and during the loading and unloading phases.

3. Barcode Tracking

Barcodes remain a fundamental tool in tracking, especially within facilities such as ports and warehouses. When a barcode on a package is scanned, it updates the system, providing location and status updates in real-time. Barcode tracking is cost-effective, widely used, and easy to implement, making it an essential method for logistics providers.

4. Internet of Things (IoT) Sensors

IoT sensors have transformed freight tracking by providing additional insights beyond location data. These sensors monitor temperature, humidity, movement, and other environmental factors critical to sensitive cargo like pharmaceuticals and perishable goods. This technology improves shipment security and helps maintain quality during transit.

Key Players in Freight Tracking Systems

Several logistics companies specialize in freight tracking, offering tailored solutions for various shipping needs. One such provider, Seanautic Marine, combines advanced tracking technology with regulatory compliance services, such as obtaining ECTN certificates, ensuring clients have seamless visibility into their shipments.

Regulatory Compliance and Tracking: ECTN Certificates

Many African countries require an ECTN (Electronic Cargo Tracking Note) for imports, ensuring compliance with local customs regulations. For freight forwarders and businesses shipping to nations such as the Central African Republic, Equatorial Guinea, South Sudan, and Togo, obtaining an ECTN certificate is essential. This document aids in tracking by maintaining an official record of shipment details, routes, and customs clearance status.

Step-by-Step Guide to Tracking Your Shipment

Tracking a shipment involves more than simply logging into a portal; it requires an understanding of the tools and technologies at your disposal. Here’s a step-by-step guide to ensure you are efficiently tracking your freight:

Step 1: Obtain Necessary Shipping and Tracking Information

Gather details such as the shipment’s tracking number, bill of lading, and relevant ECTN certificate numbers. This information is typically provided by the logistics provider and is essential for real-time monitoring.

Step 2: Access Tracking Platforms

Most logistics companies offer online tracking platforms that allow you to enter the tracking number and access real-time data. These portals are integrated with GPS or RFID systems, enabling location updates as well as other critical data on the shipment’s status.

Step 3: Monitor Real-Time Updates

Use tracking systems to view live updates, checking for estimated arrival times, potential delays, and route deviations. Monitoring these updates helps you anticipate and mitigate potential issues, especially for time-sensitive shipments.

Step 4: Utilize IoT and Environmental Data (If Applicable)

For perishable goods, IoT data such as temperature and humidity is crucial. Accessing this data ensures that products remain in optimal conditions throughout transit, preventing losses and maintaining quality.

The Role of ECTN in Different Countries

The requirement of an ECTN certificate varies depending on the destination country. The following are some countries where ECTNs are mandatory, along with the specific purposes they serve.

ECTN for Benin

The ECTN for Benin is mandatory for all imports, streamlining customs processes and allowing for more efficient tracking of shipments. It ensures that all relevant data is accessible, making it easier to monitor goods throughout their journey.

ECTN for Central African Republic

For the Central African Republic, the ECTN certificate is necessary to clear goods through customs. This document is invaluable in maintaining tracking accuracy and securing seamless passage.

ECTN for South Sudan

Freight destined for South Sudan requires an ECTN certificate to ensure compliance with local customs regulations. Tracking through the ECTN allows for real-time updates on shipment status, helping prevent delays.

ECTN for Other Key Regions

Countries like Burkina Faso, Burundi, and Guinea also mandate ECTNs, which facilitate cargo tracking and enhance data transparency. Compliance with these requirements reduces the risk of fines, while also enabling effective tracking.

Challenges in Freight Tracking

Despite the advancements, tracking freight shipments can present challenges. Remote areas with limited connectivity, customs delays, and varying regulatory requirements can impact tracking accuracy. Here’s a look at some of these obstacles:

Connectivity Issues: Remote areas may lack the infrastructure needed for real-time GPS or IoT updates, creating tracking blackouts.

Customs Hold-Ups: Unexpected inspections or documentation delays can slow the movement of goods, impacting estimated arrival times.

Inconsistent Data Standards: Different tracking systems may use varied data formats, making integration difficult across different regions.

Future Trends in Freight Tracking Technology

Freight tracking technology continues to evolve, with innovations aimed at enhancing transparency and accuracy. Future trends include blockchain integration, which promises greater data security, and AI-driven predictive analytics, which can anticipate delays and optimize routes. These advancements will transform freight tracking, making it more reliable and accessible.

Conclusion: Staying Informed with Effective Freight Tracking

Freight tracking is a critical component of modern logistics, enabling businesses to monitor shipments in real time and ensuring goods arrive safely and on schedule. By leveraging technologies such as GPS, RFID, and IoT, along with necessary compliance documents like the ECTN certificate, businesses can maintain transparency throughout their supply chains. For shipments to countries requiring ECTNs — such as the Central African Republic, South Sudan, and Equatorial Guinea — partnering with reliable providers like Seanautic Marine ensures compliance and seamless cargo tracking, supporting efficient and secure international trade.

Why Drone Photography is Necessary in the Modern World | Let’s Media Solution

Drone photography has sparked a revolution in the field of both robotics and photography. Researchers, photographers, and filmmakers are now able to achieve near-impossible shots that usually require the use of cranes and helicopters. The biggest benefit of drone photography is that, unlike cranes and helicopters, it is a vastly cheaper alternative with equal if not better results.

Drone Photography in the Modern World

Over the years, drones have seen many applications in various sectors in the modern world. For businesses, it has become an important tool in executing effective marketing strategies for businesses by taking high-quality photos. Extending past that, it has also greatly contributed to sectors such as disaster relief, environmental preservation and much more.

Here are some of the applications that make Drone photography necessary in the modern world.

Real Estate

Drone Photography has brought massive changes in the real estate industry. Through drones, agents can give buyers a digital tour of a property, bringing convenience for both buyers and agents. Drones can also give potential buyers a much better and more detailed look at the property. Drone photography helps a lot when selling luxury property as it shows the seller’s confidence in the property.

Buyers can also get a look at any local amenities nearby which greatly increases interest in the property. For example, a family of four may be interested in a property which houses a school and a market for groceries and supplies nearby.

Disaster Relief

In times of disaster, drones can be beneficial when conducting rescue efforts. Thanks to their ability to detect body heat, and manoeuvre through hard-to-reach areas, drones can locate lost people. At times of disaster, it can also locate people in need of help, such as anyone buried under rubble after an earthquake.

Moreover, drone photography can help in the inspection of damaged infrastructure such as communication relays and transport systems during moments of emergency. In doing so, it contributes a great deal to strengthening repair efforts.

Environmental Studies and Conservation

Another way that drones can be used is to monitor our natural environment for preservation and conservation efforts. Researchers often use drone photography to keep an eye on any environmental changes as well as research the local wildlife and marine life. It is also used to examine the impacts of natural disasters.

Through drone photography, researchers can also monitor marine life and the water quality of an ocean. Additionally, drone photography also helps in the protection and preservation of forests and rainforests. An example of this is how drones are used to monitor deforestation in the Amazon.

Consequently, drones are only proving to be more and more beneficial for environmental protection initiatives.

Filmmaking

Aerial cinematography is very common in film, usually, this is achieved by dangling a camera from a crane or by using a helicopter. However, this is no longer the case with the introduction of drones in filmmaking.

Filmmaking has experienced massive changes with the use of drone photography. Firstly, the affordability of drone photography has made complex, wide aerial shots a possibility for small, indie creators. To add to that, shots that were previously only possible through the use of a helicopter or a crane can now be achieved with drones that require significantly less energy and manual labour.

Photography

Photography is another field that has experienced a major shift thanks to drone photography. Similar to film, aerial photography usually requires taking a helicopter. With drones, however, aerial photography has become significantly more accessible.

Photos that were previously impossible without relying on intense manual energy, can now be taken with convenience through compact and easily manoeuvrable drones.

At Let’s Media Solution, we are committed to exceeding your expectations, delivering high-quality photography and videography services that elevate your brand, tell your story, and inspire your audience. Contact us today to discuss your project and let us bring your vision to life.

Keller Group plc provides geotechnical solutions in North America, Europe, the Middle East, Africa, and the Asia-Pacific. The company offers ground improvement services, grouting, deep foundations, earth retention, marine, and instrumentation and monitoring services.