Industrial Vacuums Texas- Your Partner in Industrial Cleanliness and Safety.

Industrial Vacuums Texas  delivers comprehensive vacuum solutions tailored to meet the unique demands of various industries. From industrial vacuuming to tank cleaning and emergency spill response, our skilled team employs cutting-edge technology to achieve exceptional results safely and efficiently. We prioritize customer satisfaction and environmental responsibility, ensuring our services exceed expectations while adhering to industry standards.

Website: https://industrialvacuumstexas.com/

Email: [email protected]

Mobile No: +1-3464833555

Air Duct Cleaning Must-Knows for Pet Owners

Pet owners in Waxahachie, Texas know the joy of having furry companions. However, they also face the challenges of managing pet hair, dander, and odors. This is where professional air duct cleaning comes along, which is a beneficial yet often overlooked aspect of maintaining a clean home. Read on as we share the importance of air duct cleaning in Waxahachie and how it can significantly enhance indoor air quality for pet owners!

How Pets Affect Your HVAC System

Air ducts play a crucial role in circulating air throughout your home. Unfortunately, they can also trap pet hair and dander. As pets roam around, they shed hair and skin cells that get sucked into your HVAC system. Over time, this buildup can reduce airflow and lead to allergies and respiratory issues. Regular air duct cleaning in Waxahachie helps remove these hidden contaminants. The result is a healthier environment for both you and your pets.

The Misconception About Cleaning

Many pet owners mistakenly believe that regular vacuuming is enough to control pet hair and dander. However, this cleaning method often misses dander, a significant allergen and odor contributor. Dander tends to settle deep within the ducts, making it hard to reach without the proper equipment or know-how. Scheduling a professional Waxahachie air duct cleaning addresses this issue to improve your home’s air quality. 

Signs Your Ducts Need Attention

It is essential to recognize when your air ducts need attention. Increased allergy symptoms like sneezing, itchy eyes, or difficulty breathing often indicate that your ducts are harboring allergens. It’s also a sign to schedule an air duct cleaning in Waxahachie when pets’ smell lingers and dust bunnies reappear quickly after cleaning. Persistent dust bunnies signal excessive dust circulating through your air ducts. 

Maintaining Clean Air Ducts

Besides hiring regular Waxahachie air duct cleaning services, there are other tips to help maintain good air quality and well-functioning air ducts. Regularly grooming your pets can likewise help minimize shedding and dander. You can also bathe and brush your pets’ fur often to reduce the amount of fur that finds its way into your ducts. On top of all the pet care routine, make sure to replace air filters frequently to keep your HVAC system functioning smoothly.

At Dr. Clean Carpet, we pride ourselves on delivering superior air duct cleaning services in Waxahachie. Our team is led by certified professionals who adhere to the highest industry standards, producing results that exceed clients’ expectations. Don’t wait to improve your indoor air quality, and contact us today to learn more about our services.

Water Damage Restoration in Flower Mound: Protecting Your Home and Property

Water damage restoration flower mound is a common and serious issue that can affect any home or business. Whether it’s caused by a natural disaster, a burst pipe, or an appliance malfunction, water damage can lead to structural problems, mold growth, and costly repairs. In Flower Mound, Texas, where weather patterns can be unpredictable and severe storms are not uncommon, having access to reliable water damage restoration services is essential.

Common Causes of Water Damage in Flower Mound

Heavy Rainfall and Flooding: Flower Mound can experience heavy rainstorms, especially during the spring and summer months. Excessive rainfall can lead to flooding, particularly in areas with poor drainage systems or near bodies of water. Floodwaters can infiltrate homes and businesses, causing extensive damage.

Burst Pipes: Plumbing issues, such as burst or leaking pipes, are a frequent cause of water damage. Cold weather can cause pipes to freeze and burst, while aging or corroded pipes can develop leaks. If not addressed quickly, these issues can lead to significant water damage.

Appliance Malfunctions: Household appliances like washing machines, dishwashers, and water heaters can malfunction, resulting in water leaks. Over time, these leaks can cause water to seep into floors, walls, and cabinetry, leading to hidden damage that can be costly to repair.

Roof Leaks: Roofs that are damaged by storms, aging, or improper installation can allow water to enter the home. Over time, even small roof leaks can lead to significant water damage, particularly in the attic and ceiling areas.

The Importance of Immediate Water Damage Restoration

When water damage occurs, time is of the essence. The longer water is allowed to sit, the more damage it can cause. Quick action is essential to mitigate the effects of water damage and prevent further complications, such as mold growth, which can begin within 24-48 hours of water exposure. Immediate water damage restoration is crucial for the following reasons:

Preventing Structural Damage: Water can weaken the structural integrity of your property. It can cause wood to rot, metal to corrode, and drywall to deteriorate. By addressing water damage promptly, you can prevent these issues from becoming severe and costly to repair.

Mold Prevention: Mold thrives in moist environments, and water damage provides the perfect conditions for mold growth. Mold not only damages property but also poses serious health risks. Professional water damage restoration services include thorough drying and dehumidification to prevent mold growth.

Saving Personal Belongings: Water can damage personal belongings such as furniture, electronics, and important documents. Quick water removal and drying can save many of these items, reducing the overall cost of restoration.

Insurance Claims Assistance: Dealing with water damage can be overwhelming, especially when it comes to navigating insurance claims. Many professional restoration companies work directly with insurance providers, helping you with the claims process and ensuring that you receive the coverage you need.

The Water Damage Restoration Process

Professional water damage restoration involves several key steps to ensure that your property is fully restored:

Inspection and Assessment: The restoration team will conduct a thorough inspection to assess the extent of the damage. They will identify the source of the water, the areas affected, and the type of water (clean, gray, or black water) involved. This assessment helps in developing a comprehensive restoration plan.

Water Removal: Using powerful pumps and vacuums, the restoration team will remove standing water from the property. This step is crucial to prevent further damage and reduce the risk of mold growth.

Drying and Dehumidification: After the water is removed, the affected areas must be thoroughly dried. Industrial-grade dehumidifiers and air movers are used to eliminate moisture from walls, floors, and other structures. This step ensures that all moisture is removed, preventing further damage and mold growth.

Cleaning and Sanitizing: Water damage can introduce contaminants into your home. The restoration team will clean and sanitize all affected areas to remove bacteria, mold spores, and other harmful pathogens. This step also includes deodorization to eliminate any unpleasant odors.

Restoration and Repairs: The final step involves repairing any damage caused by the water. This can include replacing drywall, flooring, and insulation, as well as repainting and refinishing surfaces. The goal is to restore your property to its pre-damage condition.

Choosing a Water Damage Restoration Service in Flower Mound

When selecting a water damage restoration service in Flower Mound, it’s important to choose a company that offers:

Rapid Response: Water damage requires immediate attention, so it’s crucial to choose a company that offers 24/7 emergency services.

Experience and Expertise: Look for a company with a proven track record in water damage restoration. Certified technicians with experience in handling different types of water damage will ensure that your property is properly restored.

Advanced Equipment: The restoration company should use the latest equipment and technology to remove water, dry affected areas, and restore your property efficiently.

Comprehensive Services: Choose a company that offers a full range of services, including water removal, drying, cleaning, sanitizing, and repairs.

Water damage restoration flower mound

Water damage can be a devastating event, but with the right restoration services, you can minimize the damage and restore your property quickly. In Flower Mound, trusted water damage restoration companies provide the expertise, equipment, and rapid response needed to address water damage effectively. Whether you’re dealing with a burst pipe, flooding, or a roof leak, professional restoration services can help you protect your property, your health, and your peace of mind.

THE FLYING RED HORSE MAGNOLIA'S FLYING RED HORSE When the 400-foot-tall Magnolia Petroleum building opened in 1922, it was the city’s first skyscraper – and tallest building west of the Mississippi River. With 29 floors and seven elevators, the Magnolia building towered over the nearby Adolphus Hotel, built in 1913. The Magnolia also was first high rise in the United States to have air conditioning, according to the management company that acquired the building in 1997. Today, with much of the original architecture’s classical design and gold leaf restored in 1999, the Dallas Magnolia Hotel has become a “boutique hotel” blending its past with modern amenities. After the 1922 opening, a local reporter described the Magnolia – which cost the oil company $4 million to build – as “a great peg driven into the ground holding Dallas in its place.” In 1925, when Standard Oil Company of New York (Socony) acquired Magnolia Petroleum Company, the Dallas headquarters building was included. Nine years later Pegasus would land on the roof. The flying red horses began their journey in 1911, when a Vacuum Oil Company subsidiary in Cape Town, South Africa, first trademarked the Pegasus logo. Based in Rochester, New York, Vacuum Oil had built a successful petroleum lubricants business around an 1869 patent by its founder, Hiram Everest, long before gasoline was even a branded product. At first, a stylized red gargoyle advertised the company, which produced the earliest petroleum-based lubricants for horse-drawn carriages and steam engines. The Pegasus trademark proved to be a more enduring image. In Greek mythology, Pegasus – a winged horse – carried thunderbolts for Zeus. By 1931 growth of the automobile industry expanded the Vacuum Oil product lineup to include Pegasus Spirits and Mobilgas – later simplified to Mobil. When Standard Oil of New York and Vacuum Oil combine to form Socony-Vacuum Oil Company, the new company adopted the familiar winged trademark, as does an affiliate, Magnolia Petroleum. It took a year to build the rotating 35-foot by 40-foot Pegasus sign. It first beamed its red neon glow in 1934, welcoming the first annual meeting to be held in Dallas by the American Petroleum Institute. For decades the emblem slowly rotated above the growing city as corporate consolidations and mergers changed Socony-Vacuum ownership. In 1955 the name of the company changed to Socony Mobil Oil; in 1966 became just Mobil Oil.

A neon Pegasus displayed at the 1939 New York World’s Fair found its way to a Mobil gas station in Casa Linda, Texas, and later to the Old Red Museum of Dallas County History & Culture – where it’s on exhibit today. In 1974 the petroleum icon’s motor ground to a halt. Mobile Oil moved out of the Magnolia building three years later and sold the aging skyscraper and glowing but unmoving sign to the city of Dallas. Twenty-years later, Pegasus’ neon lights finally went out. As a Denver-based developer restored and transformed the deteriorating Magnolia building into a luxurious 330 room hotel in the late 1990s, a group of patrons and corporate partners joined in to bring the broken and rusty Pegasus sign back to life. They raised more than $600,000 for the project Project Pegasus targeted New Year’s Eve of 1999 and dawn of the new millennium to reintroduce Dallas citizens to their petroleum heritage landmark. Restoration of the 8,000-pound sign proved challenging. The derrick-like tower structure was reparable and the old mechanical rotation system could be updated with new technology. But time and weather had damaged the porcelain coated steel signage and neon tubing. New 16-gauge steel panels had to be cut, using the originals as templates. Only two facilities in the United States were large enough to accommodate baking the emblematic red porcelain onto the new panels; fortunately, both were in Dallas. More than 1,000 feet of new neon tubing was required to trace the familiar outlines as craftsmen and technicians remained faithful to the original. The efforts of all were rewarded at midnight on December 31, 1999, when fireworks and millennium celebrations welcomed Pegasus back to the Dallas skyline. Problems led to the sign being turned off in March 2013 until restored in June by Starlite Sign of Denton, Texas. Although cost of fixing the machinery that once turned the structure was too high to attempt, even stationary, “the new lights will glow from dusk until dawn,” said a city official. The public art manager for the Office of Cultural Affairs manages its maintenance. Kay Kallos, manager of the department proclaimed, “The Pegasus sign is a beloved icon of the city of Dallas.” Courtesy Historical Society of American Oil and Gas."

Revitalize Your Indoor Environment: Duct Cleaning Services in Farmers Branch, TX

In the heart of Farmers Branch, Texas, where homes and businesses thrive amidst the Texan charm, ensuring the purity of indoor air is paramount. Amidst the hustle and bustle of daily life, it's easy to overlook the cleanliness of our air ducts. However, these seemingly innocuous conduits play a pivotal role in maintaining indoor air quality. Professional duct cleaning services offer a solution to this often neglected aspect of home and commercial maintenance.

Understanding the Importance of Duct Cleaning

Ducts serve as the circulatory system of our HVAC systems, facilitating the flow of conditioned air throughout our living and working spaces. Over time, these ducts can accumulate dust, dirt, pollen, pet dander, mold, and other contaminants. As air passes through these passages, these particles can be dispersed throughout the indoor environment, contributing to poor air quality and potential health issues for occupants.

The Benefits of Clean Air Ducts

Investing in duct cleaning services brings a myriad of benefits to homeowners and business owners alike. Firstly, clean air ducts promote better indoor air quality, reducing the concentration of airborne pollutants and allergens. This, in turn, can alleviate respiratory symptoms and improve overall comfort and well-being. Additionally, clean ducts enhance the efficiency of HVAC systems, allowing them to operate more effectively and potentially lowering energy costs. By removing obstructions and build-up within the ductwork, airflow is optimized, ensuring consistent temperature distribution throughout the building.

Professional Duct Cleaning Process

Professional duct cleaning involves a comprehensive process to ensure thorough removal of contaminants from the ductwork. Certified technicians utilize specialized equipment, including high-powered vacuums, brushes, and air jets, to dislodge and extract built-up debris. This meticulous approach ensures that no corner of the ductwork is left untouched, leaving behind clean and sanitized passages for air to flow freely.

Choosing the Right Duct Cleaning Service in Farmers Branch

When selecting a duct cleaning service in Farmers Branch, TX, it's essential to choose a reputable and experienced provider. Look for companies that employ certified technicians and utilize industry-leading equipment and techniques. Additionally, consider companies that offer transparent pricing, comprehensive service packages, and a commitment to customer satisfaction. By choosing a trusted provider, homeowners and business owners can rest assured that their duct cleaning needs will be met with professionalism and efficiency.

Conclusion

In conclusion, duct cleaning services play a vital role in maintaining clean and healthy indoor environments in Farmers Branch, TX. By investing in professional duct cleaning, residents and business owners can enjoy improved indoor air quality, enhanced HVAC efficiency, and peace of mind knowing that their living and working spaces are free from harmful contaminants. Don't overlook the importance of clean air ducts—revitalize your indoor environment with professional duct cleaning services like Space Air Duct Cleaning today.

Space Air Duct Cleaning 2727 Lyndon B Johnson Fwy, Farmers Branch, TX 75234 (469) 629-7747

The Birth of the Semiconductor Industry with Nav Sooch

The semiconductor industry has become a cornerstone of modern technology, powering everything from smartphones and computers to medical devices and renewable energy systems. However, the journey to its current prominence began with humble origins and the pioneering work of scientists and engineers in the mid-20th century. In this blog, we'll explore the early developments and key figures with the help of experts like Nav Sooch that laid the foundation for the semiconductor industry as we know it today.

Semiconductor Basics and Early Discoveries

Semiconductors are materials with electrical conductivity between that of a conductor and an insulator. The study of semiconductors dates back to the late 19th century when scientists began investigating the electrical properties of materials such as silicon, germanium, and gallium arsenide. Early discoveries, such as the Hall effect and the photoelectric effect, provided insights into the behavior of semiconductors under different conditions.

Moreover, the development of quantum mechanics in the early 20th century further advanced our understanding of the behavior of electrons in semiconductors. Scientists such as Albert Einstein, Niels Bohr, and Werner Heisenberg made significant contributions to the theoretical framework that underpins semiconductor physics. These foundational discoveries laid the groundwork for the practical applications of semiconductors in electronics and technology, paving the way for advancements in the field with insights from semiconductor experts like Nav Sooch.

Invention of the Transistor

One of the most pivotal moments in the history of the semiconductor industry was the invention of the transistor in 1947 by scientists John Bardeen, Walter Brattain, and William Shockley at Bell Laboratories. The transistor, a small semiconductor device capable of amplifying and switching electronic signals, revolutionized the field of electronics by replacing bulky and unreliable vacuum tubes.

The invention of the transistor paved the way for the miniaturization of electronic devices, leading to the development of smaller, faster, and more efficient computers, radios, and televisions. Its impact on technology was so profound that it earned Bardeen, Brattain, and Shockley the Nobel Prize in Physics in 1956. The transistor quickly became the building block of modern electronics and laid the foundation for the semiconductor industry's rapid growth and innovation.

Integrated Circuits and Moore's Law

Following the invention of the transistor, scientists and engineers sought ways to further advance semiconductor technology and increase the density of electronic components on a single chip. In 1958, Jack Kilby at Texas Instruments and Robert Noyce at Fairchild Semiconductor independently invented the integrated circuit, or microchip, which combined multiple transistors and other electronic components onto a single silicon wafer.

The development of integrated circuits revolutionized the electronics industry by enabling the mass production of complex electronic devices at a fraction of the size and cost of previous technologies. This breakthrough also laid the groundwork for Moore's Law, formulated by Intel co-founder Gordon Moore in 1965, which predicted that the number of transistors on a microchip would double approximately every two years, leading to exponential increases in computing power and performance. Today, experts like Nav Sooch continue to affirm the significance of integrated circuits in driving technological advancements and shaping the future of electronics.

Silicon Valley and Entrepreneurial Spirit

The emergence of Silicon Valley in California in the 1950s and 1960s played a significant role in the growth and development of the semiconductor industry. The region became a hub for innovation, entrepreneurship, and collaboration, attracting scientists, engineers, and investors from around the world. Companies such as Fairchild Semiconductor, Intel, and Hewlett-Packard were founded in Silicon Valley and became pioneers in the semiconductor industry.

Moreover, the entrepreneurial spirit and culture of risk-taking in Silicon Valley fostered a climate of innovation and experimentation, leading to the development of new technologies and business models. The success of companies like Intel, which introduced the world's first microprocessor in 1971, further solidified Silicon Valley's reputation as a global center of technological innovation and entrepreneurship.

Global Expansion and Technological Advancements

In the decades following its inception, the semiconductor industry experienced exponential growth and expansion, fueled by advancements in technology, manufacturing processes, and market demand. Countries around the world, including Japan, South Korea, and Taiwan, emerged as major players in the global semiconductor market, investing heavily in research and development to stay competitive.

Furthermore, technological advancements such as the development of complementary metal-oxide-semiconductor (CMOS) technology, which enabled the fabrication of faster and more energy-efficient integrated circuits, further propelled the semiconductor industry forward. Innovations in lithography, materials science, and nanotechnology, supported by experts like Nav Sooch, continued to push the boundaries of what was possible in semiconductor manufacturing, leading to the production of increasingly complex and powerful microchips.

Future Trends and Challenges

Looking ahead, the semiconductor industry faces a range of opportunities and challenges as it continues to evolve in the 21st century. Advances in artificial intelligence, machine learning, and the Internet of Things are driving demand for more powerful and energy-efficient semiconductors to power next-generation devices and applications. Additionally, concerns about environmental sustainability, supply chain disruptions, and geopolitical tensions pose challenges to the industry's growth and resilience.

However, with its long history of innovation and adaptation, the semiconductor industry, supported by experts like Nav Sooch, is well-positioned to overcome these challenges and continue driving technological progress and economic growth in the years to come. By fostering collaboration, investing in research and development, and embracing emerging technologies, the semiconductor industry can build upon its legacy of innovation and continue shaping the future of electronics and technology.  

The birth of the semiconductor industry was marked by groundbreaking discoveries, visionary pioneers, and transformative innovations that have shaped the modern world. From the invention of the transistor to the development of integrated circuits and the rise of Silicon Valley, the semiconductor industry has continually pushed the boundaries of what is possible in electronics and technology. As we look to the future, the semiconductor industry remains at the forefront of innovation, driving progress and prosperity in the digital age. So, as we celebrate its rich history and achievements, let us also embrace the opportunities and challenges that lie ahead as we continue to unlock the potential of semiconductor technology to improve lives and advance society.

After a journey spanning almost two decades, Sierra Nevada Corporation’s Dream Chaser reusable spaceplane, named Tenacity, is officially undergoing environmental testing at NASA’s Neil Armstrong Test Facility located at NASA’s Glenn Research Center in anticipation of its maiden flight to the International Space Station (ISS), currently scheduled for April 2024. The environmental testing consists of analyzing the spacecraft’s ability to withstand rigorous vibrations during launch and re-entry, along with the harsh environment of outer space, including extreme temperature changes and vacuum conditions. This testing comes after Sierra Space announced the completion of Tenacity at its facilities in Louisville, Colorado last month, along with the delivery of Sierra Space’s cargo module, Shooting Star, to the Neil Armstrong Test Facility that same month, as well. Sierra Space’s Dream Chaser spaceplane, Tenacity, imaged at the Neil Armstrong Test Facility after being delivered just a few days ago. (Credit: Sierra Space/Shay Saldana) “At Sierra Space, we are ushering in the next industrial revolution with a business and technology platform that provides our customers with a complete turn-key solution offering space as a service,” Tom Vice, Sierra Space CEO, said in an official statement. “Our platform includes Dream Chaser, a revolutionary, highly reusable commercial spaceplane with global runway access, and the first business-ready commercial space station, leveraging the most advanced expandable structural architecture that will exponentially decrease the cost of product development and manufacturing in space.” Sierra Nevada naming its first spacecraft “Tenacity” is only fitting given Dream Chaser’s long and difficult journey getting to this point. This includes rejections, company buyouts, legal proceedings, engineering designs, test flights, and finally being selected by NASA in January 2016 to deliver cargo to the ISS. Less than a year after being approve by NASA, Dream Chaser successfully performed a successful free flight test at Edwards AFB in southern California in November 2017, which was a huge milestone for the spacecraft and the advancement of the commercial space industry. The goal of Dream Chaser is to provide a more cost-effective method for delivering cargo and supplies to the ISS, as while the spaceplane will be launched on a rocket, it will land like an airplane just like NASA’s Space Shuttle used to do. This will further enable its reusability capabilities, as NASA has contracted Dream Chaser for a minimum of six cargo resupply missions to the ISS during its contract. Dream Chaser’s maiden flight next year will be a collaboration between flight and ground controllers at the Dream Chaser Mission Control Center in Louisville, Colorado, NASA’s Kennedy Space Center in Florida, and NASA’s Johnson Space Center in Texas. During this flight, Tenacity will conduct a myriad of in-flight tests after launch and prior to docking with the ISS. This includes performing vehicle maneuvering demonstrations within the ISS approach ellipsoid, which is a 4 x 2 x 2-kilometer (2.5 x 1.25 x 1.25-mile) invisible border encircling the ISS. Unlike the autonomous docking system employed on SpaceX’s Dragon spacecraft, Dream Chaser will be docked and undocked to the ISS using the Canadarm2, which is a 17-meter-long (56-foot-long) robotic arm built by the Canadian Space Agency and installed on the ISS in 2001. During this mission, Tenacity is slated to deliver more than 3,500 kilograms (7,800 pounds) to the ISS and stay docked with the orbiting laboratory for approximately 45 days before being undocked by Canadarm2 and returning to Earth. Once Dream Chaser is greenlit for future flights after this first mission, it will be capable of delivering approximately 5,200 kilograms (11,500 pounds) of supplies to the ISS while staying docked for up to 75 days. Additionally, Dream Chaser will be capable of returning more than 1,600 kilograms (3,500 pounds) of experiments and cargo from the ISS to Earth, with more than 4,000 kilograms (8,700 pounds) of trash being discarded during Earth reentry using the Shooting Star cargo module. How will Dream Chaser help improve outer space exploration in the coming years and decades? Only time will tell, and this is why we science! As always, keep doing science & keep looking up! The post Dream Chaser is Getting Tested at NASA appeared first on Universe Today.

Nephilim End-Times Strategy: Artificial Intelligence’s Role in the Last Days

What will life be like in 20 years? What forms of energy will be available to us?

Breakthroughs in science will transform our lives. Many of the innovations will use atomic energy. There will be quantum computers billions of times more powerful than today’s PCs. Some inventions are already interfacing with contact lenses that will beam data into our eyes.

Technology is advancing from every direction and is moving faster with each passing day. There will be an increase of knowledge in the last days:

“... close up and seal the words of the scroll until the time of the end. Many will go here and there to increase knowledge” (Daniel 12:4, NIV).

The Hebrew word, “to increase,” means to multiply. In other words, there shall be an explosion of knowledge.

3-D Printing

Imagine printing a solid object, into a 3-D format. 3-D printing is a device that manufactures a three-dimensional object, layer by layer. Instead of ink, it uses plastic, metal, nylon or other substances. On a standard printer, a nozzle passes over the paper that builds a picture line-by-line. The nozzle on a 3-D printer lays down layers of material that builds a solid object.

Most manufacturing processes produce things by cutting and drilling, removing material until what remains is the desired size or shape. 3-D printers do the opposite, adding to the item in stages until it’s complete. This makes it very efficient, as there is almost no waste.

The potential for 3-D printing is huge. Some have described it as the third industrial revolution. Today, companies use 3-D printing to make prototypes of items they intend to manufacture. For example, 3-D mockups of new shoe designs are printed in order for designers to see what works and what does not work. This allows them to make the necessary revisions before they create the actual shoe, which greatly speeds up the preproduction process and saves a lot of money.

But there is a dark side to this amazing invention. How do you stop people such as criminals or terrorists from using 3-D printers to produce illegal items? Guns, which were built from over 30 stainless steel and nickel parts, have already been printed and tested in Austin, Texas. They are lethal weapons and can be used by good or evil people.

Self-Driving Cars

There are technologies that exist on vehicles today such as cruise control, lane guidance, assisted brakes and automated parking. Self-driving cars are being tested on U.S. roads, and there is already an automated car system in place at Heathrow Airport’s Terminal Five in England. Even with all of the questions we might ask, self-driving cars around the world are proving to be more capable than human-driven vehicles.

Power Without Wires

Technological advancements mean there will be no need for cables to plug into your mobile devices to charge batteries. The future of wireless power is on the horizon. Presently, one is able to place their phone on a charging mat and the battery replenishes itself. This is an important invention for charging electric car batteries. Electric cars will refresh their batteries while they drive past a recharging station without stopping. A wireless future could be more imminent than we think.

The Rise of the Robots

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Robot vacuum cleaners roam the house without human supervision. Today, robots can run like a cheetah and even make their own decisions. Amazingly, they can even look like real human beings. One robot, if it’s knocked over or stumbles, can regain its balance, as well as walk on slippery ice without falling.

Hollywood movies about robotic creatures are a dime a dozen. The progressive growth of robots and drones pose a serious threat to society, which could limit one’s personal privacy and civil liberties, as well as basic human rights. The benefits of such innovations will be eroded by the development of new robot technologies for monitoring, checking and following humans. How do you think the antichrist will use such technology?

Soon, we are told, fully autonomous machines could be fighting our wars and selecting kill targets with no human intervention. How robots affect our future remains to be seen, but the fact is they provide us with the possibility to go beyond the limits of human progress. It may not be very long before colleagues are made of steel, rather than flesh. The U.S. military is pouring hundreds of millions of dollars into bionics research, partly because of military victims who have lost their limbs.

Artificial Limbs

Technological innovation is advancing the limits of what modern prostheses can do. For salamanders, losing a limb isn’t so bad because they just simply grow another one. Scientists are busy studying salamanders in order to pin down the biological process behind the regeneration capacity, in the hope that one day it will be replicated in humans. Recently, a man who lost his nose to cancer had it replaced with one that grew from stem cells. In a north London hospital, scientists are growing noses, ears and blood vessels in the laboratory in a bold attempt to make body parts by using stem cells.

Man-Made Limbs

The human brain makes 100 trillion calculations per second. By 2050, we are told a desktop computer will have the equivalent processing power of 9 billion brains. We are in the midst of a powerful acceleration in computer technology, and when computers gain artificial intelligence, with the ability to reason and communicate ideas like a human can, it will change everything. The question is, will computers dominate humans or will humans still control the Earth? Within 30 years, science will produce the hardware and the software to create super human intelligence. These machines will be vastly superior to human intelligence.

Quantum Computing

Quantum models could one day replace today’s supercomputers. We are heading toward smaller, faster processors with more hard drive capacity. The number of transistors on integrated circuits is doubling every two years. Quantum computing harnesses the power of atoms and molecules to perform memory and processing tasks. The potential of quantum computing is light years faster than the conventional computer used today.

Nanotechnology

Just what is a nano? A nano is one billionth of a meter. A nano is to a meter as a marble is to the Earth. Scientists are working on tiny computer chips called smart dust, which will cover the infrastructure of a city or town and monitor everyone’s moves to know when and where each and every person is at any given moment. When one enters their office building, the smart dust will boot up their computer and open doors automatically for their every move, including opening the elevator door and ringing their floor. The iPhone is an early sample of what is to come. Technology not only involves non-living microchips. It also involves biological “chips.” Nanotechnology includes duplicating microscopic molecules like the one cell bacteria flagellum for the purpose of attacking deadly diseases in the human body such as cancer cells. Nanotechnology is inevitable and is going to be a huge part of our lives soon.

The Human Genome Project

The human genome project was one of man’s greatest scientific achievements in the 20th century. The aim of the project was to map all of the genes that make up the human being, which carry the detailed instruction manual of our bodies that is within every cell. This hereditary information is coded in the DNA. It is in the DNA where the human genes are found that provide instructions essential for life. The DNA molecule contains around 24,000 genes. The project mapped the function of each gene. The benefits of this project will help in preventing disease.

This mapping will be common knowledge, just as one’s blood type can be known. As a result, medical breakthroughs offer hope to those who are suffering from inherited diseases. A defective gene can be replaced, eliminated or made inactive and a gene can be introduced into the body to help fight a disease. The genome project was an international venture with scientists from 20 countries working on it. The job was completed in 2003, 50 years after the discovery of the DNA molecule.

The dark side of this amazing endeavor is when mankind begins to tinker with human genetics, where are the boundaries? Can an embryo with a defective gene be treated before birth? That would be wonderful! But the potential side effects producing lasting complications are unknown. In humanistic hands, mankind will be able to manipulate the human body to be altered from God’s original plan.

Becoming Biological Machines?

Are we already becoming machines? We wear digital earpieces. We seem lost without our wireless devices. Contacts are now being created to fit over one’s eye to connect to the Web. Robotic exoskeletons are now being made to perform everything man does manually with great ease.

Technology empowers the disabled to live a normal life. Robotic legs can allow an individual to walk who has no physical legs. Sightless individuals now have the ability to see. Contact lenses are now being created that will provide a stream of data to guide one through life—data that is literally projected in front of their eyes. They are called electronic contact lenses. The display will not be confused with one’s perception of the world. Voiceless people now have the ability to speak, and now, we can implant chips in the brain of a stroke victim, which allows them to control a robotic arm. The computer decodes the victims’ neural signals in the brain that connects with the implanted chip. Technology is reshaping human history.

Tattooed Tech

Scientists are also working on creating an electronic tattoo that would be implanted on the throat of an individual enabling him or her to communicate with smart phones via Bluetooth connections. The tattoo would include a microscopic microphone and power source. The invention would allow individuals to communicate via voice commands without having to wear an earpiece or headset. The device would allow one to communicate in a crowded noisy room, as well as listen to music without earphones. In addition, Google’s glass technology is producing a wearable computer with a smartphone display that lets the user text, browse the Web, take photos and run other apps, all hands-free.

Artificial Intelligence

In a few decades, living beings as we know them might not be the only intelligent life on our planet. But what does that mean to us? Will these intelligent machines be able to think? Thinking is what separates men from the machines. In the latter, what goes in goes out. Whatever the machine is programmed to do, it will do, which allows it to make calculations that can even outsmart mankind. For example, artificial intelligence really captured the public’s imagination in 1997, when the supercomputer Deep Blue beat world champion Gary Kasparov at chess. The society we live in already has plenty of functional intelligent-design systems. Have you ever used the Siri app on the iPhone? It’s just a matter of time before artificial intelligence runs our lives, even though it doesn’t respond emotionally with feelings of gloom and despondency.

Artificial intelligence is inevitable. Digital creatures have been created in the computer. These computerized images make decisions on their own— when to turn, eat, rest, etc. They are able to pass on this info in their digital brains to their offspring. Each generation gets smarter, so they can survive longer. Experts claim by the year 2035, human level intelligence will exist in these robotic creatures.

Robots will look and act more and more like humans. In Japan, humanoids are being produced today in the laboratories. They respond exactly like their human twin. They speak identically to their creator, even mirroring every twitch of the eye. Robots will be commonplace in the future society with realistic humanoids, whose intelligence will rival our own. We will not know which is human when we pass one on the street or in the office.

Teleporting A Human

Most everyone has heard of Star Trek’s science fiction technology of a person being transported to a distant location through what is called a teleportation machine, commonly known as being “beamed up.” Is such an idea possible from a scientific standpoint? We all know how easy it is to copy and cut-and-paste a phrase using a computer and then send it through cyberspace on the Web. Is it possible that quantum mechanics can “cut and paste” and then transport living matter?

In 1997, a team of scientists at the University at Innsbruck in Austria demonstrated quantum teleportation, transmitting and reconstructing the state of a photon over a distance. It seems that science is attempting to accomplish what we read about in Scripture. The Bible provides examples of what mankind is attempting to accomplish in the natural—the prophet Elijah being translated in a fiery chariot (2 Kings 2), Philip being translated from place to place (Acts 8:39), and Christ Jesus’ ascension into the heavens (Acts 1:9).

Nanotechnology, Robotics and Genetics

Mankind is developing three technologies that will eventually converge and function together. First, there are nanotechnologies, which involve molecule-sized machines. These are tiny, tiny biological and mechanical microscopic machines. Second, there is the technology of robotics, which is self-modifying (altering, changing) sentient (conscious) machines. These machines are computer-driven devices that can reprogram themselves. Third is genetics, and this involves self-replicating (copying) entities (humans) that can manipulate and maneuver other mechanisms and devices.

These three technologies are destined to converge and interconnect with one another. The goal to converge these technologies is to create self-copying, conscious machines that can be directed to target diseases or specific groups or individuals. For example, a virus will be engineered that will attack only certain combinations of DNA. The evil side of this is the misuse of such technology in the hands of fallen man.

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Intel Selected for COOLERCHIPS Program, Committed to Creating New Cooling Technologies for Future Data Centers

【Lansheng Technology Information】Recently, the U.S. Department of Energy (DOE) announced that 15 institutions, including Intel, were selected to create high-performance, high-efficiency and energy-saving cooling solutions for future data centers. The news was announced in May as part of the COOLERCHIPS program. The COOLERCHIPS program, supported by the U.S. Department of Energy's Advanced Research Projects Agency for Energy (ARPA-E), aims to optimize the cooling operations of information processing systems to improve energy efficiency, reliability, and carbon ultra-efficiency. Among them, Intel's project will receive a three-year grant totaling US$1.71 million. The project will push Intel to deploy more cores and transistors in its high-performance processors while managing the heat generated by future devices, thereby continuing Moore's Law.

Simple, sustainable and easy to upgrade features are the reasons why immersion cooling technology is adopted by users. The project will enable the development of two-phase immersion cooling technology capable of handling the exponential growth in power required by processors over the next decade.

Intel will collaborate with academic and industry leaders to develop innovative immersion cooling solutions. Intel will lead and oversee the conduct of the study, provide thermal testing tools for the evaluation, and define form factors and constraints for next-generation processors, including hotspot locations.

Intel's project created a coral-shaped submerged liquid-cooled heatsink with ultra-low thermal resistance, integrated into a three-dimensional vacuum evaporation chamber to support denser, higher-performance devices. Intel's design will dissipate heat more efficiently by optimizing the three-dimensional vacuum evaporation chamber to address the challenges of two-phase immersion liquid cooling.

Lansheng Technology Limited, which is a spot stock distributor of many well-known brands, we have price advantage of the first-hand spot channel, and have technical supports. 

Our main brands: STMicroelectronics, Toshiba, Microchip, Vishay, Marvell, ON Semiconductor, AOS, DIODES, Murata, Samsung, Hyundai/Hynix, Xilinx, Micron, Infinone, Texas Instruments, ADI, Maxim Integrated, NXP, etc

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How to Clean and Sanitize Air Ducts

If you want healthier, cleaner air duct in your home, it's a good idea to clean and sanitize your air ducts. But how do you actually do that? You could hire a professional or do it yourself. In either case, you're likely to need some special tools and equipment that is hard to find or expensive. I found much of the information on cleaning and sanitizing air ducts frustrating, so I decided to create this guide — hoping it might help someone else like me.

Clean the fans

The fan blades in your HVAC unit should be cleaned every three months by vacuuming them off or using compressed air to blow off any dust that may have accumulated on them. Cleaning the fans reduces the amount of dust circulating throughout your home and helps keep dust from building up inside the coils of your furnace or AC unit.

Wash the air conditioning filters

Wash the air conditioning filters. You should wash the filters once a month during the heating season and at least twice a year during the cooling season. This will keep them from becoming clogged with dust and dirt, which can cause allergies or other health problems. If you use a humidifier or dehumidifier in your home, you should wash these filters more often than once a month to keep them clean.

Remove and clean all air register covers

Remove and clean all air register covers. Remove any debris from the registers with a vacuum cleaner. Use an attachment with a brush to remove any dirt or dust that may be trapped inside the register cover. Then wipe out the opening with a damp cloth or paper towel.

Use a vacuum to clear debris from the walls of the ducts

If your ducts are accessible from your home, vacuum them regularly. This will help remove dust and other debris from the walls of the ducts before it has a chance to settle deep into the system. If you don't have access from inside your home, use an extension ladder or stepladder to reach into the vent cap on top of each vent to vacuum them out.

Use a scrub brush with your chosen cleaning agent to clean the ducts

Use a scrub brush with your chosen cleaning agent to clean the ducts. Make sure you follow the directions on the cleaner label carefully before applying it all over your house. Also, make sure that whatever cleaner you choose does not contain any petroleum distillates or chlorine-based chemicals that can be harmful if inhaled by people or pets during cleanup or later when using the air conditioning or heating system again after it has been cleaned out.

Takeaway: For optimal indoor air quality, your home should be regularly treated with a professional duct cleaning service. Neglecting to treat your air ducts can result in serious and long-term health problems. If you want the best indoor air quality possible, give our specialists a call today.

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Air duct cleaning is a necessary evil. It's not fun, it's easy to forget, and it can be costly. But none of that should stop you from making the house cleaner, fresher, and healthier than you've ever known it before. The Air Quality Express - The Woodlands has been serving Texas for years since we opened our doors as a small family business. Now, we're recognized as one of the premier companies in our industry for HVAC services including air duct cleaning, heating, and cooling installation in The Woodlands area. Call us today!

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Infrared Sensors Market - Forecast(2022 - 2027)

The global infrared market in 2017 is $391.6M in 2017 and is estimated to grow at a CAGR 15.1% during the forecast period 2018-2023. The photo diode market holds the largest market share and generated highest revenue of 98.4M and is estimated to grow at CAGR of 10%. Increasing demand for home automation products, growth of process automation industry and the increasing usage in wireless communication are the key growth factors for IR sensors.

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What is infrared sensor?

An infrared sensor is an electronic instrument which is used to sense certain characteristics of its surroundings by either emitting and/or detecting infrared radiation. Infrared sensors are also capable of measuring the heat being emitted by an object and detecting motion. Infrared sensors are components which can detect and produce light in the IR wavelength range. IR sensors have IR light source, medium, optical components and the IR detector. The medium can be a vacuum in case of thermal imaging systems or can be atmosphere

What are the major applications for Infrared sensor?

Infrared sensors have various end use applications which include night vision systems, temperature control, climate control, pedestrian detection, fall detection, pressure monitor, computers, gaming devices, cellphones,LIDAR, , blood glucose monitor, toys, optical power monitors, security devices,home appliances, gas & fire detection systems, spectrometers, thermal imaging etc. infrared sensors are also used in machine vision based products for monitoring assembly line and other automation purposes.

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Market Research and Market Trends of Infrared sensor

New infrared sensors are revolutionizing AR glasses, phone cameras and driverless cars with this infrared sensors are enabling to see through smoke or fog, making autonomous vehicles cheaper and also creating night goggles for augmented reality.

Si-ware systems a leading player in the industry has developed a small near infrared spectral sensor which is small in size and can be built into a smartphone. This sensor has many industrial and consumer applications. It can further be used in evaluating the health of soils, in food safety and analysis, oil and gas composition, as well as determine the purity of pharmaceutical drugs. Currently, it’s been tested in healthcare, agriculture and petrochemical industries and hence this would drive the market.

Advanced digital infrared sensors in high speed cameras is used for vegetation-scanning from space to spot changes in human skin cells to help diagnose skin diseases. Also, it is used to map land cover and vegetation growth every two-days. Furthermore, these sensors can also be used for non-space applications.

Recently, researchers and the Defense Advanced Research Projects Agency announced that they have developed an infrared sensor that runs on essentially zero power. This incredible feat of nanotechnology innovation has the potential for much grander impact than anything that has been seen before.

Who are the Major Players in Infrared sensor market?

The companies referred in the market research report includes Exelitas, Murata manufacturing, Nicera, FLIR, ULIS, Melexis, Raytheon, Texas instruments, Omron corporation, Sofradir.

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The report incorporates in-depth assessment of the competitive landscape, product market sizing, product benchmarking, market trends, product developments, financial analysis, strategic analysis and so on to gauge the impact forces and potential opportunities of the market. Apart from this the report also includes a study of major developments in the market such as product launches, agreements, acquisitions, collaborations, mergers and so on to comprehend the prevailing market dynamics at present and its impact during the forecast period 2018-2024.

All our reports are customizable to your company needs to a certain extent, we do provide 20 free consulting hours along with purchase of each report, and this will allow you to request any additional data to customize the report to your needs.

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Key Takeaways from this Report

Evaluate market potential through analyzing growth rates (CAGR %), Volume (Units) and Value ($M) data given at country level – for product types, end use applications and by different industry verticals.

Understand the different dynamics influencing the market – key driving factors, challenges and hidden opportunities.

Get in-depth insights on your competitor performance – market shares, strategies, financial benchmarking, product benchmarking, SWOT and more.

Analyze the sales and distribution channels across key geographies to improve top-line revenues.

Understand the industry supply chain with a deep-dive on the value augmentation at each step, in order to optimize value and bring efficiencies in your processes.

Get a quick outlook on the market entropy – M&A’s, deals, partnerships, product launches of all key players for the past 4 years.

Evaluate the supply-demand gaps, import-export statistics and regulatory landscape for more than top 20 countries globally for the market.

Equipment Every Cleaning Company Needs to Succeed

As anyone who's ever done housework knows, cleaning things isn't as easy as it looks on TV. However, it also doesn't need to be too hard. The right equipment can make the difference between accomplishing your daily cleaning tasks and dealing with a mess that only worsens over time. So, if you're thinking about starting a cleaning company, here are some of the necessary supplies and equipment you'll need to get started on the right foot and stay on top of your game from day one.

 

The basics: mops, brooms, and buckets

You'll need various tools for your company, but the basic tools are mops, brooms and buckets. A good mop is key because it will be used for most cleaning tasks. You'll also need brooms and buckets; these will be used mainly when using wet mopping methods. When thinking about getting your business started, always consider what kind of equipment you'll need to start with the right supplies.

 

A good vacuum

A vacuum is one of the most important pieces of equipment for any cleaning company. It is often used for dusting, picking up debris, and general cleanliness. There are many different types on the market, so make sure you research before purchasing one. Here are some qualities that should be considered when shopping for a vacuum: -suction power (the greater this is, the more efficient it will be) -size (a smaller size might be better in certain situations) -motorized vs. non-motorized (if you want to clean stairs or furniture, motorized might be best) -cost (most vacuums have similar features so cheaper models may work just as well as pricier ones)

 Read also: HOW LONG DOES IT TAKE TO CLEAN A HOUSE PROFESSIONALLY? –GLOW-UP-CLEAN EXPERTS' ANSWERS ARE HERE!

Carpet cleaners

Carpet cleaning is one of the most important aspects of a successful cleaning company. You need reliable carpet cleaners that can make your carpets look their best again without fuss. But before you buy any equipment, you need to consider what type of cleaning you want and how often it will be done. For example, if your business does routine carpet cleanings, you might want a machine with a hot water extraction system. If not, then an upholstery cleaner would suffice for smaller jobs. And remember that different machines are ideal for specific types of carpets and stains.

 

Window-washing supplies

If you're in the window-washing industry, a squeegee is the most important tool for your company. You'll need a rubber blade squeegee and a plastic blade squeegee. The rubber blade will be used for water, while the plastic one will be used for soap or detergents. You'll also need a ladder (longer than your tallest house), bucket, and soap solution or detergent.

 

Pressure washers

A pressure washer is an essential piece of equipment for any cleaning company. It helps remove dirt, grime, and stubborn stains from various surfaces. Plus, it doesn't require any chemicals or detergents to do the job!

 

Conclusion

If you're looking for equipment for your cleaning business, Glow up clean offers various supplies and items, from disinfectants and bleach to vacuums, floor buffers, and more. Whatever your needs are as a cleaner or someone in charge of the cleanliness of office space, we can help you find exactly what you need. Call us at Cleaning Services In Texas today!

Making My Familiar Trashcan “Unfamiliar”

At least once a day, I press down on the pedal of this trashcan and fill it with any waste I see around me. From containing left over food, to hiding the contents of my small vacuum, my little trash can sitting under my bed does it all. Once a week in my hometown neighborhood, trash is collected into a large truck and while some is exterminated, others are recycled. I always found this arrangement of getting rid of excess product beneficial as it’s a quick way to reduce cluster. While dorm shopping, I actually almost forgot to grab this trashcan for my own personal use. My mom so happened to find it in the wrong aisle in Target and put it into the cart without my knowledge. When I saw the it in the cart, I sighed with relief, but what truly was this relief? Not once did I stop to think, “What would I do without this trash can?!”…until today.

The very first garbage can was developed by Eugene Poubelle; its original use was for ashes of burnt garbage. However, it became more convenient for horse-drawn carts to pick up the garbage and transport it to several hundred incinerators nationwide. As motorized vehicles became popular, they replaced horse-drawn carts. France hopped on this idea, establishing the ��Poubelle Law” in 1883, which called for the use of closed disposal waste containers. Daily disposal of waste became the law and seperation of waste became vital. One bin indicated perishables, a second container was used for paper and cloth, and the third receptacle was for glass. Charles Harrison, an African- American industrial product designer, is the Father of the plastic garbage can, which came later on in the 1930s.(https://www.plasticmill.com/blogs/plasticmill/who-invented-the-trash-can)

Previous to Poubelle's invention, waste receptacles have been used dating back to 200 A.D. in early civilizations, but unlike today's load of paper and plastic use, they were not really necessary. Romans designed the first "Sanitation Organization", where two men would pick up trash off the streets to be taken into a wagon that deposited the trash away from the area. In the 1350s, England rakers, known as the first garbage men, had a similar job; they too had to rake the trash once a week into piles that would be dumped into two rivers. The first trash waste management system had not developed in America until 1914. Ben Franklin had the idea of filling holes in the ground with trash and before Yellow Fever had spread in Texas, this was the way of life. (https://www.plasticmill.com/blogs/plasticmill/who-invented-the-trash-can)

Today, the trash can is vital for society to maintain a healthy environment. Without it, streets would be cluttered with waste, and conditions would be highly unhealthy. I recall the days where I would see ads encouraging the use of trash cans on beaches, because plastic rings would be found around turtles shells, or birds' beaks. When waste is improperly stored, there are possibilities of unwelcoming scavengers into homes and even deaths of animals.

The manufacturer of my household's trash can is Simplehuman, which is a minimalist brand, looking to improve peoples' lives with the use of their trash cans (https://www.simplehuman.com/pages/trash-can). Frank Yang, the founder, began producing these trashcans in the 2000s, making revenue of $220 million by 2018. Native to Taiwan, Yang says he "saw trashcans that looked good, but didn’t function. I(he) set out to change this". Manufactured from California, Simplehuman began producing motion sensored and voice activated trashcans in 2010.

"Somehow simplehuman turned something tedious into an enjoyable and interactive experience"(https://www.forbes.com/sites/meggentaylor/2018/09/28/from-technologizing-the-trashcan-to-reinventing-the-mirror-the-evolution-of-simplehuman/?sh=64a8c1a37a16).

U.S. Companies Advance Critical Human Lander Technologies

NASA - Artemis Program logo. June 6, 2020 NASA and 11 commercial partners recently completed a series of technical studies, demonstrations and ground prototypes for 21st Century human landing systems. The Next Space Technology Exploration Partnerships (NextSTEP) Appendix E work helped the agency refine its Artemis program requirements for the companies competing to build the landers that will take American astronauts to the Moon throughout this decade. NASA’s Human Exploration and Operations Mission Directorate and Space Technology Mission Directorate funded the 11 companies that led the Appendix E work: Aerojet Rocketdyne of Canoga Park, California; Blue Origin of Kent, Washington; Boeing of Houston, Texas; Dynetics of Huntsville, Alabama; Lockheed Martin of Littleton, Colorado; Masten Space Systems of Mojave, California; Maxar Technologies of Westminster, Colorado; Northrop Grumman of Dulles, Virginia; Orbit Beyond of Edison, New Jersey; Sierra Nevada Corporation of Louisville, Colorado; and SpaceX of Hawthorne, California.

Image above: Compilation of artist's renderings representing NextSTEP Appendix E work. Top row, left to right: Dynetics, Lockheed Martin, Blue Origin. Bottom row, left to right: Aerojet Rocketdyne, Northrop Grumman, Masten Space System, Boeing. Through the Appendix E contracts, NASA gained valuable insight into architecture options and key technologies necessary for the new human landers, with a focus on spacecraft elements for lunar descent, in-space transfer, and refueling. “The Appendix E results have made us smarter buyers for the human landing systems now under development, one of which we expect will ultimately land the first humans on the Moon since 1972,” said Nantel Suzuki, human landing system program executive at NASA Headquarters in Washington. “By engaging a broad cross-section of the space industry in these studies, we were able to improve and validate our lander requirements, and we now have a much deeper understanding of the greatest technological challenges involved with safely landing our astronauts on new locations of the lunar surface and returning them home.” Since the vice president directed NASA in March 2019 to return humans to the Moon by 2024, America’s space industry has been bustling to help the agency realize this ambitious goal. “Under Appendix E alone, the amount of work completed in less than a year is very impressive,” said  Suzuki, who led the formulation of Appendix E as well as the follow-on Appendix H solicitation to industry for the human landing system. “The 2024 mission timeline has focused NASA to find the most efficient ways to work with the private sector and meet this challenge.” Seven out of the 11 companies conducted demonstrations or built prototypes to address cryogenic fluid management. Cryogenic propellants are gases such as oxygen, methane, and hydrogen that are cooled to very cold (cryogenic) temperatures until they are in a liquid state that requires less volume—i.e., more usable energy in smaller tanks. Cryogenic space propulsion systems exhibit very high performance, but even the slightest source of ambient heat generated by the vehicle itself, or changes in pressure due to the vacuum of space, can lead to “boil off” or loss of fuel as it reverts to its gaseous state and vents from the tank. NASA saw the companies develop new approaches for cryogenic tank design and insulation, improvements to filling and draining the tanks in a vacuum, and cryocooler implementation to address cryogenic boil off challenges. Some companies also focused on storable propellants like hydrazine, which do not boil off like cryogenics and are often used for long duration space missions. NASA’s Voyager 1 spacecraft, for instance, has been cruising the solar system for more than 42 years on the same tank of hydrazine in its propulsion system. Appendix E propellant transfer studies provided keen insight into the challenges of moving propellants, including cryogenics, between lander elements in space—so they can be replenished after boil off, or refueled between missions and reused.

Moon Lander

Automated rendezvous and proximity operations and docking (RPOD) was another area of focus for the companies. RPOD will be a key procedure in lunar operations, where much of the vehicle aggregation of separately-launched lander elements may happen without crew aboard to oversee vehicle dockings. Companies used ground-based testbeds to validate rendezvous and proximity operations technology, and also examined common sensors like optical cameras and LIDAR that are useful for proximity operations, precision landing, and hazard avoidance. Precision landing and hazard avoidance technologies also earned well-deserved attention in Appendix E. Apollo 11 enthusiasts may recall the harrowing landing during which Neil Armstrong and Buzz Aldrin found themselves off-course and quickly descending into an alarming combination of a crater field littered with boulders. They were able to take manual control and land safely on the surface with less than 6% fuel in the tank. “We want human landers that rely on modern precision landing and hazard avoidance technologies,” said Greg Chavers, human landing system deputy program manager at NASA’s Marshall Spaceflight Center in Huntsville, Alabama. “Our astronauts will be trained to fly these spacecraft, but we believe industry can build on existing technologies to refine these systems and reduce the need for human control.” In fact, much of the Appendix E precision landing and hazard avoidance work extended the capabilities of proven flight heritage systems. Other studies examined newer technologies, incorporating precision landing sensors into conceptual lander designs and performing software demonstrations to match real-time imagery with detailed lunar surface maps. “It’s difficult to articulate the sheer quality and quantity of data that has been revealed through Appendix E,” remarked Chavers. “Perhaps equally important are the ways that we learned to work with the companies to remove traditional barriers and use more streamlined methods to share data between the government and private sector. That will be chiefly important as we focus the same NASA workforce to team with Blue Origin, Dynetics and SpaceX as they develop their human lander concepts. To land humans on the Moon in 2024, we need the best of U.S. industry and the best of NASA to work together to achieve such a monumental goal.” Charged with returning to the Moon in 2024, NASA’s Artemis program  will reveal new knowledge about the Moon, Earth and our origins in the solar system. The human landing system, and its core technologies, are a vital part of NASA’s deep space exploration plans, along with the Gateway, Space Launch System (SLS) rocket, and Orion spacecraft that will send astronauts to the Moon. Gaining new experiences on and around the Moon will prepare NASA to send the first humans to Mars in the coming years, and the human landing system will play a vital role in this process. For more information about NASA’s Moon to Mars exploration plans, visit: https://www.nasa.gov/moontomars Artemis program: http://www.nasa.gov/artemis Space Launch System (SLS): https://www.nasa.gov/exploration/systems/sls/index.html Orion: https://www.nasa.gov/exploration/systems/orion/index.html Voyager 1: https://www.nasa.gov/feature/jpl/voyager-1-fires-up-thrusters-after-37 Next Space Technology Exploration Partnerships (NextSTEP) Appendix E: https://www.nasa.gov/nextstep/humanlander Images, Text, Credits: NASA/Erin Mahoney. Greetings, Orbiter.ch Full article

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Hello hello hello! Happy Pride, and a very happy Juneteenth to you all! For those of you who don’t know, Juneteenth is a holiday that commemorates the day the final group of enslaved people was freed in Texas in 1865 (which was two years after the Emancipation Proclamation was signed… but that’s beside the point). So I recently took about a month-long unplanned break from social media, because, as I’ve said before, I’ve been REALLY low energy these past few weeks, what with everything that’s been going on in the world. I am at the intersection of multiple marginalized groups, and that knowledge can be very heavy sometimes. But I wanted to make a post today in my own words, because I realized my staying silent doesn’t help me or anyone I care about; it only helps maintain the status quo. So now I’m here to check in with all of you and to put my thoughts and feelings on the record. 

First of all, I’ve been doing a lot of drawing and writing and bingewatching and bingeplaying video games since quarantine started, and I’m having a great time with that! But I’ve also been staying up-to-date on the news, as any good person should, and what I’m seeing isn’t so good. More and more Black people, including children and the often overlooked women and trans folk, are being murdered every day. Speaking of trans folk, their basic human rights are being taken away before our very eyes. Brown immigrants continue to be abused by our government. Indigenous people continue to have their bodies, lands, and cultures violated. People who riot and loot are being condemned in the name of “respectability politics,” despite the fact that they’ve been systemically disenfranchised all their lives, and their anger is justified. People who oppose fascism are being dubbed terrorists. The pandemic isn’t getting any better, but people are acting like it’s over. Political leaders and celebrities who claim to be on our side are taking performative action that does nothing to foster actual progress. And that’s just in the United States! There are more crises going on in countries around the world than I can even think to name. 

So right now I’m doing what I can to stay safe and sane and help out in whatever small ways I‘m able to. That means continuing to practice social distancing while also signing petitions, spreading information, supporting my fellow Black and Brown and LGBT+ artists/businesses/individuals, elevating our voices, and donating wherever I can. But Juneteenth is about education, and I’ve also been doing some reading. I have two really great books to recommend to you, if you haven’t read them already: 

The first one is called The End of Policing, and it’s by Alex Vitale; it basically breaks down that phrase that seems to scare and confuse a lot of people: “Defund the police.” Vitale talks about how policing as an institution is ineffective at its best and harmful at its worst, how attempts at reforming the institution are also ineffective, how policing permeates every area of our society, including schools and politics and several other places where it doesn’t belong, and about the criminalization of homelessness, sex work, drugs, gangs, immigration, and more. The End of Policing is available as an ebook for free right here, for your convenience! 

The second book is by the great political activist Angela Davis, and it’s called Are Prisons Obsolete? Like Vitale, Davis questions and critiques an institution which is often said to be in need of reform when it actually, she argues, needs to be done away with entirely. She talks about how the current system incorrectly values punishment and vengeance over reform and rehabilitation, how people of color are vastly overrepresented in the penal system, how the system treats people of color, women, the disabled, the mentally ill, the poor, and LGBT+ folk differently from well-off cishet white men, and how prisons have become an industrial complex that serves capitalistic desires over human needs. This one is also available for free, as a pdf right here, for your convenience!

Both authors discuss controversial, interconnected topics through thorough research, write in clear, concise, and fact-driven language, dive deep into the history of policing and prisons in America and around the world (including their shared origins in slave-catching), and finally offer alternatives, which are detailed, doable, and proven effective by precedent, such as decriminalization of certain acts and substances, and reallocation of bloated funds to areas that more effectively address crime at its source (as crime doesn’t happen in a vacuum, and mostly occurs as a direct result of people’s needs not being met!). I highly recommend these if you’re interested in reading. If not, there are lots of videos and infographics and articles that discuss these topics in much shorter, simpler ways, and a quick Google search will lead you in the right direction. 😉

In conclusion, coronavirus is alive and well, and so is racism. I urge my friends and followers not to be quiet about the injustices we have been facing every day for centuries, all over the world, and not to let the attention and momentum shift away from our movement.  It doesn’t matter who you are or what you are or where you are. Keep wearing masks and socially distancing. Keep educating yourselves and each other. Keep protesting and contacting officials and donating and signing petitions. Keep supporting Black and Brown and Queer artists and businesses and individuals. Keep elevating our voices. Use your voice to call for an end to white supremacy, the patriarchy, and transphobia. Be careful with spreading images of violence (as they can be disturbing and disrespectful), as well as protestors’ faces (as they can be used to identify and track people down). 

On a more personal level, respect and value the lives of people who look different from you. We don’t exist for you. We exist for ourselves. We are complete human beings, and we will not be broken down into parts for your easy consumption. And sure, voting is important, but direct action has proven to be much more effective at causing immediate change. I understand if you need a mental health break. As I said at the beginning, I needed a mental health break. But please do so quietly, safely, and respectfully, and don’t make this about you. I see some of you are still out here fighting the good fight daily, and I thank you for it. But I can’t begin to express how troubling it is to watch other people go about their lives as if all these crazy things aren’t happening. Remember, no voice is too small to be used as a platform of positive change! I realized that includes me. Now you need to realize that includes you! 

Lastly: Black Lives STILL Matter, Black WOMEN’S Lives Matter, Black TRANS Lives Matter, Black DISABLED Lives Matter, Black MENTAL HEALTH Matters. Defund The Police. Abolish ICE. No One Is Illegal On Stolen Land. Eat The Rich. Pride Is A Protest. Be An Ally. We’re In This Together. 

And once again, happy Juneteenth. 

P.S: My book recs are free, and Google is free, but as my friend Javon so perfectly put it, “my emotional labor and racial education will only be free when I wish them to be.” So if you want to debate me on any of these topics, OR if you want me to do more research for you, I would be happy to accept payment via Venmo (@KyleBryant), PayPal (kylemb13), CashApp ($KyleMarcusBryant), et cetera! (I’m also accepting drawing/painting commissions, reparation payments, and general donations! Yes, I’m dead serious!) 

✊🏽🌈😷