#thermal power generator
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liquidplates · 3 months ago
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Reliable Power Generation Solutions | Liquid Plates
Liquid Plates offers innovative solutions for efficient power generation across various industries. Our expertise in thermal power generator ensures your systems maintain optimal performance and reliability. Whether you're looking to enhance energy efficiency or need a robust power generator solution, Liquid Plates provides tailored technology that meets your specific needs. Count on us to deliver dependable and effective power generation solutions that keep your operations running smoothly.
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elektrostantsiya · 8 months ago
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Powiśle Power Plant 🏭, Warsaw
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kirbyddd · 9 months ago
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what if it was all a dream
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chaunceymansanleandro · 1 year ago
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Chauncey Man San Leandro: Electricity Generation Methods
Electricity can be generated through various processes, each with its own advantages, disadvantages, and applications. Here are some common types of electricity generation processes shared by Chauncey Man San Leandro:
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Fossil Fuel-Based Generation:
Coal Power Plants: These plants burn coal to produce steam, which drives turbines connected to generators.
Natural Gas Power Plants: Natural gas is burned to spin turbines and generate electricity.
Oil Power Plants: Similar to natural gas plants, but they use oil as the fuel source.
Nuclear Power Generation:
Nuclear reactors use controlled nuclear fission reactions to heat water and produce steam that drives turbines connected to generators.
Renewable Energy Generation:
Solar Power: Photovoltaic (PV) cells convert sunlight into electricity.
Wind Power: Wind turbines capture kinetic energy from the wind and convert it into electricity.
Hydropower: Water flowing through dams or turbines generates electricity.
Geothermal Power: Heat from the Earth's core is used to produce steam that drives generators.
Biomass Power: Organic materials like wood, crop residues, and waste are burned or converted to biogas to generate electricity.
Hybrid Systems:
Some power generation systems combine renewable sources (e.g., solar and wind) with energy storage systems (e.g., batteries) to provide continuous power.
Tidal and Wave Energy:
Tidal and wave energy generators harness the kinetic and potential energy of ocean tides and waves to generate electricity.
Fuel Cells:
Fuel cells combine hydrogen and oxygen to produce electricity, with water as the only byproduct.
Cogeneration (Combined Heat and Power - CHP):
Cogeneration systems produce electricity and useful heat simultaneously, improving overall energy efficiency.
Thermoelectric Generators:
These generators convert heat directly into electricity using temperature differences, often in remote or small-scale applications.
Microgrids:
Microgrids are localized electricity generation and distribution systems that can incorporate various energy sources, including renewables, to provide reliable power to specific areas.
Ocean Thermal Energy Conversion (OTEC):
OTEC systems use temperature differences between warm surface water and cold deep water to generate electricity.
Radioisotope Thermoelectric Generators (RTGs):
RTGs use the heat generated by the radioactive decay of isotopes to produce electricity, often used in space probes and satellites.
Piezoelectric Generation:
Piezoelectric materials generate electricity when subjected to mechanical stress or vibration, used in some specialized applications.
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Chauncey Man San Leandro's final words, The choice of electricity generation method depends on factors such as resource availability, environmental impact, cost, and energy demand. Many regions are transitioning to cleaner and more sustainable energy sources to reduce carbon emissions and combat climate change.
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industrialgasgenerator · 1 year ago
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Sustainable Power Generation: Renewable Energy Solutions
Total Power Solutions
Kaltimex Energy is a well-known company in Bangladesh that specializes in providing engineering, procurement, and construction (EPC) services, particularly in the energy sector.
Kaltimex Energy Bangladesh is involved in various projects related to power generation, including the installation and maintenance of power plants, electrical and mechanical works, and other energy-related services. They have been involved in the development of both conventional and renewable energy projects in Bangladesh.
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Kaltimex Energy has been working in the field of power plant business for over 2 decades. They deal with natural Gas Engine, Industrial Gas Generator, Diesel Generator, Exhaust Gas Boiler, Gas Fired Boiler, Vapor Absorption Machine (Chiller), Thermal Fluid Heater, Transformer, Radial Gas Turbine and Steam Turbine for power plants on turnkey basis projects from concept to commissioning within stipulated time period & budget.
MWM, HTT, VIESSMANN, VOLTAS, ENMAX & MAXWATT, and others are marketed brands.
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gpstudios · 4 months ago
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Celebrating National Thermal Engineering Day: Honoring the Innovators of Heat and Energy
Happy National Thermal Engineering Day! 🔥🔧 Celebrate the vital contributions of thermal engineers who manage heat and energy across industries. Learn, appreciate, and honor these essential professionals. #ThermalEngineeringDay
Introduction Happy National Thermal Engineering Day! 🔥🔧 Celebrated annually on July 24th, this day is dedicated to recognizing the vital contributions of thermal engineers who work tirelessly to manage heat and energy across various industries. From HVAC systems and power plants to electronics and transportation, thermal engineering plays a crucial role in improving efficiency, safety, and…
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avonengineering · 6 months ago
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Gas Fired Thermic Fluid Heater
Introducing Avon Engineering state-of-the-art Gas Fired Thermic Fluid Heater – an embodiment of innovation in industrial heating solutions. This advanced heater redefines heat transfer, offering a seamless fusion of speed, efficiency, durability, and precise temperature control for a wide range of industrial applications.
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Key Features:
Experience the efficiency of quick and uniform heat transfer using thermic fluid with Avon Engineering Gas Fired Thermic Fluid Heater. Furthermore, it adeptly converts gas into heat, ensuring rapid and reliable heat exchange for various operational needs. In addition, embrace the efficiency of gas as an energy source. Our heater taps into this reliable fuel type, providing a continuous and dependable heat source for diverse applications. Moreover, designed with longevity in mind, our heater features robust construction that can withstand the demands of industrial environments. Its sturdy build guarantees consistent performance and reliability over time. Additionally, achieve accurate temperature control within your processes with our Product. Its advanced control systems enable you to maintain the desired temperature ranges, crucial for applications requiring specific heat levels. @avonengineering Follow For All Updates
Experience Cutting-Edge Heat Transfer: Our Product introduces a new realm of industrial heating. Whether for manufacturing, chemical processing, or other sectors, this advanced heater delivers reliable, efficient, and precise heat transfer, optimizing your processes. It integrates technology, efficiency, durability, and precision, offering a forward-focused solution that aligns with your energy and operational goals. Elevate your heat transfer processes and invest in a product that ensures exceptional performance. Embrace a new era of heat exchange with our state-of-the-art Gas Fired Thermic Fluid Heater.
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little-p-eng-engineering · 9 months ago
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Little P.Eng. Engineering: Your Go-To Source for Pipe Stress Analysis and Support Design Services
In the vast and complex world of engineering, precision and accuracy are paramount. Nowhere is this truer than in the field of piping systems, where even the smallest miscalculation or oversight can lead to catastrophic consequences. To ensure the safe and efficient operation of piping systems, the expertise of specialized engineers is required. This is where Little P.Eng. Engineering comes into play. With a reputation for excellence and a commitment to providing top-notch pipe stress analysis and support design services, Little P.Eng. Engineering stands as a trusted partner for industries that rely on flawless piping systems.
In this comprehensive guide, we will delve into the world of pipe stress analysis and support design services offered by Little P.Eng. Engineering. We will explore the importance of these services, their role in various industries, and how Little P.Eng. Engineering excels in delivering tailored solutions. Additionally, we will discuss the key factors that set Little P.Eng. Engineering apart from the competition and provide valuable insights into their commitment to safety, quality, and customer satisfaction.
Chapter 1: Understanding Pipe Stress Analysis
1.1 What is Pipe Stress Analysis?
Pipe stress analysis is a critical component of engineering that involves evaluating the forces and stresses acting on a piping system to ensure its structural integrity and safety. It plays a pivotal role in various industries, including petrochemical, oil and gas, power generation, and more. Pipe stress analysis helps engineers identify potential issues such as excessive strain, deformation, or failure that could compromise the functionality and safety of the system.
1.2 The Importance of Pipe Stress Analysis
The significance of pipe stress analysis cannot be overstated. Failing to perform adequate stress analysis can lead to a range of problems, including:
1.2.1 Safety Risks: Inadequate pipe stress analysis can result in ruptures, leaks, and catastrophic failures, endangering human lives and the environment.
1.2.2 Cost Overruns: Repairs and maintenance due to unforeseen issues can lead to substantial cost overruns in construction and operation projects.
1.2.3 Downtime: Unscheduled downtime can disrupt operations, leading to production losses and revenue reduction.
1.2.4 Legal and Regulatory Issues: Non-compliance with safety standards and regulations can result in legal and financial repercussions.
1.2.5 Reputation Damage: Incidents related to piping system failures can tarnish a company's reputation.
Chapter 2: The Role of Pipe Stress Analysis in Different Industries
2.1 Oil and Gas Industry
The oil and gas industry relies heavily on complex piping systems to transport hydrocarbons from extraction sites to refineries and end-users. Pipe stress analysis is crucial in this industry to prevent leaks, ruptures, and environmental disasters. Little P.Eng. Engineering provides specialized services tailored to the unique challenges of the oil and gas sector.
2.2 Petrochemical Industry
Petrochemical plants process raw materials into valuable chemical products. The precise and safe transport of chemicals through piping systems is essential. Pipe stress analysis ensures the structural integrity of these systems, mitigating the risk of chemical leaks and ensuring worker safety.
2.3 Power Generation
Power plants, whether they run on fossil fuels, nuclear energy, or renewable sources, require intricate piping networks to deliver steam, water, and gases to turbines and generators. Pipe stress analysis is vital to prevent system failures and maintain uninterrupted power generation.
2.4 Pharmaceutical and Food Industries
In industries where product purity and safety are paramount, such as pharmaceuticals and food production, pipe stress analysis ensures the integrity of sanitary piping systems. Little P.Eng. Engineering's expertise extends to designing hygienic piping solutions that meet the strictest standards.
2.5 HVAC Systems
Heating, ventilation, and air conditioning (HVAC) systems in commercial and industrial buildings rely on complex piping networks. Proper stress analysis ensures the efficient functioning of HVAC systems, contributing to comfort and energy efficiency.
Chapter 3: Little P.Eng. Engineering's Pipe Stress Analysis Services
3.1 Expertise and Experience
Little P.Eng. Engineering boasts a team of highly skilled and experienced engineers with a deep understanding of the complexities involved in pipe stress analysis. Their expertise spans various industries, ensuring that clients receive tailored solutions that align with their specific needs and challenges.
3.2 Advanced Technology and Software
Staying at the forefront of technological advancements is crucial in the engineering field. Little P.Eng. Engineering utilizes state-of-the-art software and tools for pipe stress analysis, enabling precise simulations and evaluations. This ensures the accuracy and reliability of their services.
3.3 Customized Solutions
One of the key strengths of Little P.Eng. Engineering is their ability to provide customized solutions. They understand that each project is unique and may have distinct requirements. By tailoring their services to individual client needs, they ensure optimal results and client satisfaction.
3.4 Compliance with Industry Standards
Compliance with industry standards and regulations is non-negotiable in the world of engineering. Little P.Eng. Engineering ensures that all their pipe stress analysis services meet or exceed relevant industry standards, codes, and safety guidelines.
Chapter 4: Pipe Support Design Services
4.1 What is Pipe Support Design?
Pipe support design is an integral part of piping system engineering. It involves creating structures and supports that hold piping systems in place, preventing excessive movement, vibration, and stress. Proper support design ensures the longevity and stability of piping systems.
4.2 Importance of Pipe Support Design
Inadequate or improperly designed supports can lead to several problems, including:
4.2.1 Excessive Stress: Unsupported piping can experience undue stress, leading to damage and failure.
4.2.2 Vibrations: Vibrations can affect the performance of piping systems and nearby equipment.
4.2.3 Misalignment: Improper alignment can cause leaks and inefficiencies.
4.2.4 Premature Wear: Unsupported piping can wear out faster, leading to maintenance and replacement costs.
4.3 Little P.Eng. Engineering's Pipe Support Design Services
Little P.Eng. Engineering offers comprehensive pipe support design services to ensure that piping systems are adequately supported and stable. Their services include:
4.3.1 Structural Analysis: Evaluating the structural integrity of supports and ensuring they meet safety and code requirements.
4.3.2 Custom Designs: Tailoring support solutions to the unique needs of each project.
4.3.3 Material Selection: Recommending suitable materials for support components, considering factors like corrosion resistance and load-bearing capacity.
4.3.4 Installation Guidance: Providing guidance and recommendations for the proper installation of supports.
Chapter 5: What Sets Little P.Eng. Engineering Apart
5.1 Commitment to Safety
Safety is Little P.Eng. Engineering's top priority. Their pipe stress analysis and support design services are driven by a commitment to ensuring the safety of people, the environment, and assets. They meticulously evaluate every aspect of a piping system to identify potential safety hazards and implement measures to mitigate them.
5.2 Quality Assurance
Quality is woven into the fabric of Little P.Eng. Engineering's services. They maintain rigorous quality control processes throughout the project lifecycle, from initial analysis to final implementation. This dedication to quality results in reliable and durable piping systems.
5.3 Timely and Efficient Service
Time is often of the essence in engineering projects. Little P.Eng. Engineering understands the importance of meeting project timelines. Their streamlined processes and experienced team allow them to deliver timely and efficient services without compromising quality.
5.4 Client-Centric Approach
Little P.Eng. Engineering takes a client-centric approach, focusing on understanding the unique needs and goals of each client. They engage in open communication and collaboration, ensuring that clients are actively involved in the decision-making process.
5.5 Continuous Improvement
In an ever-evolving field like engineering, staying current with the latest advancements is crucial. Little P.Eng. Engineering is committed to continuous improvement and invests in ongoing training and development for their team members.
Chapter 6: Case Studies and Success Stories
6.1 Case Study 1: Oil Refinery Piping
A major oil refinery faced ongoing issues with leaks and failures in its piping system, resulting in costly downtime and environmental concerns. Little P.Eng. Engineering conducted a comprehensive pipe stress analysis and identified critical stress points. They then designed and implemented reinforced supports and provided guidance on material selection. The result was a significant reduction in incidents, ensuring safe and uninterrupted operations.
6.2 Case Study 2: Pharmaceutical Facility
A pharmaceutical company needed to upgrade its piping system to comply with stringent FDA regulations. Little P.Eng. Engineering provided customized pipe stress analysis and support design services to ensure compliance with hygienic standards. The project was completed successfully, allowing the company to maintain product integrity and regulatory compliance.
6.3 Case Study 3: Power Plant Efficiency
A power plant was experiencing inefficiencies in its piping system, resulting in reduced energy output. Little P.Eng. Engineering conducted a detailed pipe stress analysis and identified areas of improvement. They designed and implemented optimized supports, resulting in increased energy efficiency and cost savings.
Chapter 7: Conclusion
In conclusion, Little P.Eng. Engineering stands as a premier provider of pipe stress analysis and support design services, catering to various industries where the integrity and safety of piping systems are of utmost importance. Their commitment to safety, quality, client satisfaction, and continuous improvement sets them apart as a trusted partner in the world of engineering.
Whether you operate in the oil and gas, petrochemical, power generation, pharmaceutical, or HVAC sector, Little P.Eng. Engineering has the expertise and experience to deliver customized solutions that meet your unique needs. By prioritizing safety, adhering to industry standards, and consistently providing timely and efficient services, Little P.Eng. Engineering has earned its reputation as a leader in the field of pipe stress analysis and support design.
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Little P.Eng. Engineering: Your Go-To Source for Pipe Stress Analysis and Support Design Services
The listing below indicates a few of Meena Development’s most commonly served industries.
Steel and Metals Industry 
Energy and Power Generation Industry 
Water and Wastewater Industry 
Oil & Gas Industry 
Chemicals and Plastics Industry 
Pulp & Paper Industry 
Facility Services 
Residential Buildings Sector 
Hospitality and Hotel Sector 
Commercial Buildings Sectors 
Sports and Stadia Buildings Sector 
Education Buildings Sector 
Government Buildings Sector 
Hospitals Engineering Services 
Biotech / Pharmaceutical – Engineering Services 
Food & Beverage – Engineering Services 
Tags:
Pipe Stress Analysis
Little P.Eng. Engineering
Finite Element Analysis
Structural Integrity
Engineering Expertise
Thermal Expansion
Support Design Services
Oil and Gas
ASME Codes
Industry Standards
Power Generation
Stress Evaluation
Piping Systems
Safety and Compliance
Engineering Solutions
Precision Analysis
Industrial Processes
Petrochemical
Seismic Analysis
Customized Solutions
Pressure Analysis
Pipe Support Design
Safety Regulations
Reliability Assurance
Complex Piping Systems
Chemical Industry
Pharmaceutical Industry
Vibrations Analysis
Stress Distribution
Pipe Failure Prevention
Pipe Stress Analysis Services
Engineering Services
Seismic Bracing Experts
Located in Calgary, Alberta; Vancouver, BC; Toronto, Ontario; Edmonton, Alberta; Houston Texas; Torrance, California; El Segundo, CA; Manhattan Beach, CA; Concord, CA; We offer our engineering consultancy services across Canada and United States. Meena Rezkallah.
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dsiddhant · 1 year ago
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The global Geothermal Energy Market is expected to grow from an estimated USD 7.0 billion in 2022 to USD 9.4 billion in 2027, at a CAGR of 5.9% according to a new report by MarketsandMarkets™.
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The Inner Workings of a Thermal Power Plant
Thermodyne, a leading boiler manufacturer, is at the forefront of thermal power plant technology. Our boilers are essential to the process of converting heat energy into electrical power. In a thermal power plant, fuel is combusted in a boiler to produce high-pressure steam. This steam is then directed to a turbine, which drives a generator to produce electricity. Thermodyne boilers are designed to be highly efficient and reliable, ensuring that power plants can operate at peak capacity. Thermodyne boilers are used in a variety of thermal power plants, including coal-fired, natural gas-fired, and oil-fired plants. We also offer boilers for biomass and waste-to-energy plants. For more information contact us at https://www.thermodyneboilers.com/components-working-thermal-power-plant/
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electronalytics · 1 year ago
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https://www.linkedin.com/pulse/thermal-power-generation-system-market-overview-regional-varsha-reddy
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liquidplates · 4 months ago
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Power Generation Made Easy with Liquid Plates | Thermal Power Generator
Efficiently generate power with Liquid Plates, the leading provider of thermal power generators. Our innovative technology allows for easy power generation, making it a reliable solution for your energy needs. Say goodbye to complicated machinery and welcome the simplicity of Liquid Plates. Whether for residential or industrial use, our power generator is designed to provide a steady and sustainable source of energy. Trust in Liquid Plates to provide you with the best thermal power generator for your home or business. Make the switch to liquid plates and experience hassle-free power generation.
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reasonsforhope · 2 months ago
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Masterpost: Reasons I firmly believe we will beat climate change
Posts are in reverse chronological order (by post date, not article date), mostly taken from my "climate change" tag, which I went through all the way back to the literal beginning of my blog. Will update periodically.
Especially big deal articles/posts are in bold.
Big picture:
Mature trees offer hope in world of rising emissions (x)
Spying from space: How satellites can help identify and rein in a potent climate pollutant (x)
Good news: Tiny urban green spaces can cool cities and save lives (x)
Conservation and economic development go hand in hand, more often than expected (x)
The exponential growth of solar power will change the world (x)
Sun Machines: Solar, an energy that gets cheaper and cheaper, is going to be huge (x)
Wealthy nations finally deliver promised climate aid, as calls for more equitable funding for poor countries grow (x)
For Earth Day 2024, experts are spreading optimism – not doom. Here's why. (x)
Opinion: I’m a Climate Scientist. I’m Not Screaming Into the Void Anymore. (x)
The World’s Forests Are Doing Much Better Than We Think (x)
‘Staggering’ green growth gives hope for 1.5C, says global energy chief (x)
Beyond Catastrophe: A New Climate Reality Is Coming Into View (x)
Young Forests Capture Carbon Quicker than Previously Thought (x)
Yes, climate change can be beaten by 2050. Here's how. (x)
Soil improvements could keep planet within 1.5C heating target, research shows (x)
The global treaty to save the ozone layer has also slowed Arctic ice melt (x)
The doomers are wrong about humanity’s future — and its past (x)
Scientists Find Methane is Actually Offsetting 30% of its Own Heating Effect on Planet (x)
Are debt-for-climate swaps finally taking off? (x)
High seas treaty: historic deal to protect international waters finally reached at UN (x)
How Could Positive ‘Tipping Points’ Accelerate Climate Action? (x)
Specific examples:
Environmental Campaigners Celebrate As Labour Ends Tory Ban On New Onshore Wind Projects (x)
Private firms are driving a revolution in solar power in Africa (x)
How the small Pacific island nation of Vanuatu drastically cut plastic pollution (x)
Rewilding sites have seen 400% increase in jobs since 2008, research finds [Scotland] (x)
The American Climate Corps take flight, with most jobs based in the West (x)
Waste Heat Generated from Electronics to Warm Finnish City in Winter Thanks to Groundbreaking Thermal Energy Project (x)
Climate protection is now a human right — and lawsuits will follow [European Union] (x)
A new EU ecocide law ‘marks the end of impunity for environmental criminals’ (x)
Solar hits a renewable energy milestone not seen since WWII [United States] (x)
These are the climate grannies. They’ll do whatever it takes to protect their grandchildren. [United States and Native American Nations] (x)
Century of Tree Planting Stalls the Warming Effects in the Eastern United States, Says Study (x)
Chart: Wind and solar are closing in on fossil fuels in the EU (x)
UK use of gas and coal for electricity at lowest since 1957, figures show (x)
Countries That Generate 100% Renewable Energy Electricity (x)
Indigenous advocacy leads to largest dam removal project in US history [United States and Native American Nations] (x)
India’s clean energy transition is rapidly underway, benefiting the entire world (x)
China is set to shatter its wind and solar target five years early, new report finds (x)
‘Game changing’: spate of US lawsuits calls big oil to account for climate crisis (x)
Largest-ever data set collection shows how coral reefs can survive climate change (x)
The Biggest Climate Bill of Your Life - But What Does It DO? [United States] (x)
Good Climate News: Headline Roundup April 1st through April 15th, 2023 (x)
How agroforestry can restore degraded lands and provide income in the Amazon (x) [Brazil]
Loss of Climate-Crucial Mangrove Forests Has Slowed to Near-Negligable Amount Worldwide, Report Hails (x)
Agroecology schools help communities restore degraded land in Guatemala (x)
Climate adaptation:
Solar-powered generators pull clean drinking water 'from thin air,' aiding communities in need: 'It transforms lives' (x)
‘Sponge’ Cities Combat Urban Flooding by Letting Nature Do the Work [China] (x)
Indian Engineers Tackle Water Shortages with Star Wars Tech in Kerala (x)
A green roof or rooftop solar? You can combine them in a biosolar roof — boosting both biodiversity and power output (x)
Global death tolls from natural disasters have actually plummeted over the last century (x)
Los Angeles Just Proved How Spongy a City Can Be (x)
This city turns sewage into drinking water in 24 hours. The concept is catching on [Namibia] (x)
Plants teach their offspring how to adapt to climate change, scientists find (x)
Resurrecting Climate-Resilient Rice in India (x)
Other Masterposts:
Going carbon negative and how we're going to fix global heating (x)
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charcoaldustonmyfingers · 5 months ago
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Mikey skeletal anatomy! Click for better quality
Box turtles are the kinds of turtles who can fully fit into and close their shells along a single hinge in their plastron, which once closed is extremely hard to break into for any kind of predator especially if they cannot get a proper grip on the dome of the shell. Box turtles are also usually found in plains rather than ponds, and while they need water to survive and keep hydrated and can swim well, they’re not generally considered aquatic. Box turtles do have an interesting adaptation due to their more northern range of being able to survive freezing temperatures for a short period of time by slowing their metabolism outside of seasonal brumation (similar to hibernation, but more of a dormant state) if absolutely needed.
After watching TMNT ‘03 where the turtles meditate to save oxygen and prevent suffocation in a broken airlock, I thought, why not mix their ninja ability to conceal their body heat and breath and mix it with a turtles natural ability to brumate? Perhaps the brothers could enter into a completely dormant state on command with enough training in order to survive extreme situations or astral project in some form. Just a fun thought to tie their strong mystic powers with their physical abilities!
Although I use the term heterothermy to refer to them being able to vary between generating their own body heat while active and relying on environmental temperature while inactive, the intricacies of understanding thermal regulation in animals eludes me. If there’s a term that fits better, go ahead! I’m not a biologist so you probably know better lol
These are all my personal head cannons! You can use em’ as reference or not, whichever you prefer :)
[General][Raph][Donnie][Leo][Splinter]
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nasa · 8 months ago
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LaRue Burbank, mathematician and computer, is just one of the many women who were instrumental to NASA missions.
4 Little Known Women Who Made Huge Contributions to NASA
Women have always played a significant role at NASA and its predecessor NACA, although for much of the agency’s history, they received neither the praise nor recognition that their contributions deserved. To celebrate Women’s History Month – and properly highlight some of the little-known women-led accomplishments of NASA’s early history – our archivists gathered the stories of four women whose work was critical to NASA’s success and paved the way for future generations.
LaRue Burbank: One of the Women Who Helped Land a Man on the Moon
LaRue Burbank was a trailblazing mathematician at NASA. Hired in 1954 at Langley Memorial Aeronautical Laboratory (now NASA’s Langley Research Center), she, like many other young women at NACA, the predecessor to NASA, had a bachelor's degree in mathematics. But unlike most, she also had a physics degree. For the next four years, she worked as a "human computer," conducting complex data analyses for engineers using calculators, slide rules, and other instruments. After NASA's founding, she continued this vital work for Project Mercury.
In 1962, she transferred to the newly established Manned Spacecraft Center (now NASA’s Johnson Space Center) in Houston, becoming one of the few female professionals and managers there.  Her expertise in electronics engineering led her to develop critical display systems used by flight controllers in Mission Control to monitor spacecraft during missions. Her work on the Apollo missions was vital to achieving President Kennedy's goal of landing a man on the Moon.
Eilene Galloway: How NASA became… NASA
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Eilene Galloway wasn't a NASA employee, but she played a huge role in its very creation. In 1957, after the Soviet Union launched Sputnik, Senator Richard Russell Jr. called on Galloway, an expert on the Atomic Energy Act, to write a report on the U.S. response to the space race. Initially, legislators aimed to essentially re-write the Atomic Energy Act to handle the U.S. space goals. However, Galloway argued that the existing military framework wouldn't suffice – a new agency was needed to oversee both military and civilian aspects of space exploration. This included not just defense, but also meteorology, communications, and international cooperation.
Her work on the National Aeronautics and Space Act ensured NASA had the power to accomplish all these goals, without limitations from the Department of Defense or restrictions on international agreements. Galloway is even to thank for the name "National Aeronautics and Space Administration", as initially NASA was to be called “National Aeronautics and Space Agency” which was deemed to not carry enough weight and status for the wide-ranging role that NASA was to fill.
Barbara Scott: The “Star Trek Nerd” Who Led Our Understanding of the Stars
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A self-described "Star Trek nerd," Barbara Scott's passion for space wasn't steered toward engineering by her guidance counselor. But that didn't stop her!  Fueled by her love of math and computer science, she landed at Goddard Spaceflight Center in 1977.  One of the first women working on flight software, Barbara's coding skills became instrumental on missions like the International Ultraviolet Explorer (IUE) and the Thermal Canister Experiment on the Space Shuttle's STS-3.  For the final decade of her impressive career, Scott managed the flight software for the iconic Hubble Space Telescope, a testament to her dedication to space exploration.
Dr. Claire Parkinson: An Early Pioneer in Climate Science Whose Work is Still Saving Lives
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Dr. Claire Parkinson's love of math blossomed into a passion for climate science. Inspired by the Moon landing, and the fight for civil rights, she pursued a graduate degree in climatology.  In 1978, her talents landed her at Goddard, where she continued her research on sea ice modeling. But Parkinson's impact goes beyond theory.  She began analyzing satellite data, leading to a groundbreaking discovery: a decline in Arctic sea ice coverage between 1973 and 1987. This critical finding caught the attention of Senator Al Gore, highlighting the urgency of climate change.
Parkinson's leadership extended beyond research.  As Project Scientist for the Aqua satellite, she championed making its data freely available. This real-time information has benefitted countless projects, from wildfire management to weather forecasting, even aiding in monitoring the COVID-19 pandemic. Parkinson's dedication to understanding sea ice patterns and the impact of climate change continues to be a valuable resource for our planet.
Make sure to follow us on Tumblr for your regular dose of space! 
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dailyoverview · 1 month ago
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Thermosolar power plants are seen outside the city of Dunhuang, in northwest China. Also called “solar concentrators,” these plants use heliostat mirrors to focus the sun’s thermal energy on molten salt flowing through a central tower, which circulates into storage tanks and is used to produce steam and generate electricity. The larger circular array seen here is 1.7 miles wide (2.7 km), contains 12,000 mirrors and can displace 350,000 tonnes of carbon dioxide emissions every year. Also seen in the bottom-right are parabolic trough collectors, another method of solar thermal collection.
40.073657°, 94.432896°
Source imagery: Maxar
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