While the earlier studies have suggested efficiencies as high as 40%, experiments remained below 1%, Lenert says. The team would like to design the devices so they could be easily bolted on to existing systems, thereby making conversion relatively inexpensive. One of the busiest train stations in Stockholm has become an unlikely energy source for a building across the street. It was published online this month in Nature Materials. If you own an apartment, one of the most important energy efficiency steps you can take is to reduce electricity consumption in common areas. Pumped thermal electricity storage has many advantages. The "clean energy" argument doesn't cut it for the guys that make the money from these energy sources. They design cleaner-burning engines and new … The electric power sector accounted for about 56% of total U.S. renewable energy … The same is true for energy. The researchers used a gallium nitride semiconductor in the “proof of concept” tests. Hydroelectric Energy. And the materials needed to build a device to make the process work are cheap and easily available, meaning the power that comes from it will be affordable. In 2019, renewable energy provided about 11.5 quadrillion British thermal units (Btu)—1 quadrillion is the number 1 followed by 15 zeros—equal to 11.4% of total U.S. energy consumption. If producing a renewable energy device costs more energy than it produces during its lifetime, it’s not sustainable because we’re a net consumer of energy. Won’t break the bank A team of researchers at Massachusetts Institute of Technology has come up with a new way to capture solar energy that makes it easier to store and be used on demand at a later time. Having an energy-efficient home is good for your health. Lenert has been involved with STPV efforts at MIT ever since the university opened the Solid-State Solar Thermal Energy Conversion (S3TEC) Center in 2010, but his interest goes back even further to a radiation class. If they aren’t sufficient you integrate with the water grid, after making it efficient (there are grids that loose much water on the way from the supplier). Speak to your strata committee about conducting an audit … (Credit: Jack Hubbard). Communication Preferences “And we showed this physical mechanism does exist; it works as advertised.” Or a … Dirty filters make your system work harder and run … Turn up the heat The outer sunlight-facing layer, the absorber, includes an array of multi-walled carbon nanotubes that efficiently absorbs the light’s energy and turns it into heat. The higher the better.”. “For each device, we are figuring something like a 6-inch wafer of actual material is all that is needed,” Melosh says. “So the material cost in this is not really an issue for us, unlike the way it is for large solar panels of silicon.”. While most silicon solar cells have been rendered inert by the time the temperature reaches 100 degrees Celsius, the PETE device doesn’t hit peak efficiency until it is well over 200 C. Because PETE performs best at temperatures well in excess of what a rooftop solar panel would reach, the devices will work best in solar concentrators such as parabolic dishes, which can get as hot as 800 C. Dishes are used in large solar farms similar to those proposed for the Mojave Desert in Southern California and usually include a thermal conversion mechanism as part of their design, which offers another opportunity for PETE to help generate electricity as well as minimize costs by meshing with existing technology. Until now, no one had come up with a way to wed thermal and solar cell conversion technologies. Privacy and Security Statement This will shorten the time required to design and build pumped thermal electricity storage, even on a large scale. The team created a device that improves the efficiency of solar panels by using wavelengths of light that normally are wasted because they cannot be captured by conventional photovoltaic cells. The technique simultaneously uses the light and heat of the sun to generate electricity. © 2021 The American Society of Mechanical Engineers. The American Society of Mechanical Engineers. First repair energy losses, then Renewable Energy, … “The light would come in and hit our PETE device first, where we would take advantage of both the incident light and the heat that it produces, and then we would dump the waste heat to their existing thermal conversion systems,” Melosh says. The efficiency they achieved in their testing was well below what they have calculated PETE’s potential efficiency to be—which they had anticipated. The cost of materials has been one of the limiting factors in the development of the solar power industry, so reducing the amount of investment capital needed to build a solar farm is a big advance. Green power markets are part of the larger U.S. renewable energy market. Renewable energy is here to stay and increasing numbers of Irish farmers are already embracing this technology as a way to reduce running costs, improve efficiency and make their farm more … “So the PETE process has two really big benefits in energy production over normal technology.”. A lot of work has been done on the theoretical design of surfaces for solar thermophotovoltaic systems (STPVs) and fabrication of single components for potential integration in these systems, says team member Andrej Lenert, an MIT graduate student who expects to be awarded his PhD in mechanical engineering this spring. Leave a … Power outages are part of being connected to the grid, but outages can cause … A lot of energy waste in old buildings is the result of overdue maintenance, so get the window panes fixed and clear out the gutters and drains that make walls damp and cold. In their experiments using simulated sunlight, the researchers found peak efficiency came when the intensity was equivalent to a focusing system that concentrates sunlight by a factor of 750. A bonded layer of silicon/silicon dioxide photonic crystals, the emitter, is engineered to convert the heat back into light that can then be captured by the PV cells. I hope we don't have … Futurity is your source of research news from leading universities. Nick Melosh in his Stanford Lab describes how the system works. Jernhusen, a transportation real estate company in Sweden, found a way to create usable energy from the body heat of the quarter million commuters who pass through Stockholm Central Station each day. As a result, along with renewable energy … Even today, in fact, hydropower … All rights reserved. Another advantage of the PETE system is that by using it in solar concentrators, the amount of semiconductor material needed for a device is quite small. Each smart … “In fact, it works better at higher temperatures. The problem has been that high temperatures are necessary to power heat-based conversion systems, yet solar cell efficiency rapidly decreases at higher temperatures. “My interest in renewable power generation stems as far back as my interest in pursuing an engineering degree.” He expects to continue research in this area after graduation. Lenert says this is because the research center is currently working on getting even better control of the thermally-driven spectral conversion process using wavelength and angular selective surfaces. © 2021 The American Society of Mechanical Engineers. This field is for validation purposes and should be left unchanged. If the team achieves its goal of generating power from sunlight both efficiently and on demand from an STPV system, it could have a major impact on the way society uses solar power or at least provide another renewable option for applications when solar thermal plants or photovoltaics cannot meet the requirements, Lenert says. Here's how it works, according to a BBC article: Heat exchangers in the Central Station's ventilation system convert the ex… Melosh is senior author of a paper describing the tests the researchers conducted. Melosh calculates the PETE process can get to 50 percent efficiency or more under solar concentration, but if combined with a thermal conversion cycle, could reach 55 or even 60 percent—almost triple the efficiency of existing systems. The overall aim was to reduce the energy supply from the grid by allowing homes to exchange their surplus renewable energy and by optimally planning energy amounts used. Cross-sectional view of an operating solar thermophotovoltaic. “Even if we don’t achieve perfect efficiency, let’s say we give a 10 percent boost to the efficiency of solar conversion, going from 20 percent efficiency to 30 percent, that is still a 50 percent increase overall.”. More news from Stanford: http://news.stanford.edu/. This new system combines the advantages of solar photovoltaic systems, which turn sunlight directly into electricity, and solar thermal systems, beneficial for delayed use because heat is more easily stored than electricity. STANFORD (US)—A new conversion process could make solar power production twice as efficient as existing methods—and potentially cheap enough to compete with oil. However, more integrative assessments of a least-cost, clean and reliable power system of the future will factor in high fractions of variable renewables, along with more-efficient markets … Sitemap Increased Reliability. Clean or replace all filters in your home regularly. All rights reserved. … The research was largely funded by the Global Climate and Energy Project at Stanford and the Stanford Institute for Materials and Energy Science, which is a joint venture of Stanford and SLAC National Accelerator Laboratory, with additional support from the Department of Energy and the Defense Advanced Research Projects Agency. Improvements in technology that make it more efficient to procure, store and distribute renewable energy, and less expensive to build renewable energy infrastructure New multinational, … Below are ideas to make your home energy efficient… A bonded layer of silicon/silicon dioxide … But there’s a material side to it … You are free to share this article under the Attribution 4.0 International license. "I'd put my money on the sun and solar energy. Authorized Resellers and Electronic Version Licensees, ISO Committees & Technical Advisory Groups, Volunteer Orientation & Leadership Training, ASME Virtual Town Hall with Rep. Dan Kildee Discusses Infrastructure, Clean Energy, and the RISE Act. Come up with a way to make it profitable and then it will become an option. “We then tuned the spectral properties of the absorber-emitter using carbon nanotubes and silicon/silicon dioxide photonic crystals to target these properties and achieve the improved performance,” he says. They are already exploring other materials that might work. One way to shift that money toward better forms of energy is to get institutions like the World Bank to invest in renewable energy infrastructure, the New Climate Economy report found. Some energy experts assert that the best way to reduce data centers' impact on the environment is to make them more efficient by implementing best practices in their design and … What a source of power! “What we’ve demonstrated is a new physical process that is not based on standard photovoltaic mechanisms, but can give you a photovoltaic-like response at very high temperatures,” Melosh says. This allows much more of the energy in the sunlight to be turned into electricity. Called “photon enhanced thermionic emission,” or PETE, the process promises to surpass the efficiency of existing photovoltaic and thermal conversion technologies. DOE Announces $52.5 Million to Support U.S. Manufacturers and Industrial Workers, How 5 Countries Work Toward Decarbonization, Robotics Blog: Robotics Automation Explores New Frontiers, Terms of Use Currently, hydroelectric power plants provide only about five percent of the … In this new system, the sun heats a high-temperature material, a two-layer absorber-emitter device placed over the PV cells. With the right material—most likely a semiconductor such as gallium arsenide, which is used in a host of common household electronics—the actual efficiency of the process could reach up to the 50 or 60 percent the researchers have calculated. The concept of energy efficiency has moved in and out of favor with the public over the years, but recently has gained renewed broad-based support. The panels are typically placed on the roof or in the yard where they capture … “The large discrepancy is in part due to the challenging experimental nature of spectral engineering at high temperatures. This level of concentration is already much lower than in previous attempts at STPV systems, which concentrated sunlight by a factor of several thousand. But they used gallium nitride because it was the only material that had shown indications of being able to withstand the high temperature range they were interested in and still have the PETE process occur. Melosh’s group figured out that by coating a piece of semiconducting material with a thin layer of the metal cesium, it made the material able to use both light and heat to generate electricity. The storage tanks can be fille… A great deal of … Add your information below to receive daily updates. ASME Membership (1 year) has been added to your cart. Sales Policy ASME.org Community Rules. Key to the breakthrough was an understanding of the interplay between the use of structure at small scales to tune spectral properties and macroscale device design. This heat from unused sunlight and inefficiencies in the cells themselves account for a loss of more than 50 percent of the initial solar energy reaching the cell. © 2021 The American Society of Mechanical Engineers. The outer sunlight-facing layer, the absorber, includes an array of multi-walled carbon nanotubes that efficiently absorbs the light’s energy and turns it into heat. 2. He says the team came up with the idea for the absorber-emitter after developing a framework to identify which parts of the spectrum are most critical to the success of an STPV system. Part One | The Multiple Benefits of Energy Efficiency and Renewable Energy I-3 PREFACE State and local energy efficiency and renewable energy investments can produce significant benefits, including lower fuel and electricity costs, increased grid reliability , better air quality and public health, and more … And that is still a big enough increase that it could make solar energy competitive with oil. If this wasted heat energy could somehow be harvested, solar cells could be much more efficient. Solar. Photovoltaic systems never get hot enough for their waste heat to be useful in thermal energy conversion, but the high temperatures at which PETE performs are perfect for generating usable high-temperature waste heat. Job opportunities open up when homeowners invest in energy efficiency. Mechanical, electrical and civil engineers collaborate to develop new and more efficient ways to generate electricity from renewable resources. A clean energy revolution is taking place across America, underscored by the steady expansion of the U.S. renewable energy sector.. What a waste The price of yearly membership depends on a number of factors, so final price will be calculated during checkout. Learn more about a range of topics related to how renewable energy supply helps meet demand for green power, how renewable energy certificates (RECs) are the currency of U.S. renewable energy … “The PETE process could really give the feasibility of solar power a big boost,” Melosh says. Making Hydropower More Eco-Friendly Hydropower has long provided a flexible, low-cost, and renewable source of power for the United States— since the 1800s, in fact. For example, a renewable energy engineer may serve as a researcher or consultant, examining ways to improve energy extraction projects to make them more efficient and environmentally friendly. Storing energy is crucial, because it allows energy systems to manage renewable energy resources as sources shift from climate-change-causing fossil fuels -- natural gas and coal -- to … “It is actually something fundamentally different about how you can harvest energy.”. The confluence of economic, environmental and geopolitical concerns around reducing America's exposure to disruptions in the supply of energy has moved efficiency to the fore. “I was drawn to this work initially because of the elegance of the concept and later because of the multi-disciplinary nature of its practical implementation,” he says. But the cells can only use a portion of the light spectrum, with the rest just generating heat. Lenert’s team has produced an initial test device with a measured efficiency of 3.2%, and they say with further work they expect to be able to reach 20% efficiency, enough for a commercially viable product. If this wasted heat energy could somehow be harvested, solar cells could be much more efficient. “Just demonstrating that the process worked was a big deal,” Melosh says. Suppose you just bought your new home and you’re wondering how you could make it energy efficient, there are simple ways on how to go about this. But the MIT researchers say that after further optimization, it should be possible to get the same kind of enhancement at even lower sunlight concentrations, making the systems easier to operate. One of the most popular and effective ways to produce renewable energy is with photovoltaic (PV) panels. The conversion processes mostly rely on conventional technology and components (such as heat exchangers, compressors, turbines, and electrical generators) that are already widely used in the power and processing industries. Geothermal: Geothermal energy is extracted from the natural processes of the earth. The basic concept has been explored for several years, according to the team. And, unlike photovoltaic technology currently used in solar panels—which becomes less efficient as the temperature rises—the new process excels at higher temperatures. The clean energy industry generates hundreds of billions in economic … Most photovoltaic cells, such as those used in rooftop solar panels, use the semiconducting material silicon to convert the energy from photons of light to electricity. “This is really a conceptual breakthrough, a new energy conversion process, not just a new material or a slightly different tweak,” says lead researcher Nick Melosh, an assistant professor of materials science and engineering at Stanford University. “This selectivity will lower the required level of solar concentration in two ways: Control over re-emission losses from the absorber and a more efficient TPV process that will contribute to lowering the input solar power needed to reach the same operating temperature.”. It is also in part due to fact that the overall system efficiency is highly dependent on the performance of each one of the energy conversion steps and components, just like in a conventional solar cell, except with the added spectral conversion steps in the hot absorber-emitter.”. Image: MIT.edu.
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