View allAll Photos Tagged EnergyStorage
A wind farm is a group of wind turbines in the same location used to produce electricity.
We are making photographs to understand what our lives mean to us.
The best thing about a picture is that it never changes, even when the people in it do.
The camera is an instrument that teaches people how to see without a camera.
I really believe there are things nobody would see if I didn’t photograph them.
A wind farm is a group of wind turbines in the same location used to produce electricity.
We are making photographs to understand what our lives mean to us.
The best thing about a picture is that it never changes, even when the people in it do.
The camera is an instrument that teaches people how to see without a camera.
I really believe there are things nobody would see if I didn’t photograph them.
A wind farm is a group of wind turbines in the same location used to produce electricity.
We are making photographs to understand what our lives mean to us.
The best thing about a picture is that it never changes, even when the people in it do.
The camera is an instrument that teaches people how to see without a camera.
I really believe there are things nobody would see if I didn’t photograph them.
A wind farm is a group of wind turbines in the same location used to produce electricity.
We are making photographs to understand what our lives mean to us.
The best thing about a picture is that it never changes, even when the people in it do.
The camera is an instrument that teaches people how to see without a camera.
I really believe there are things nobody would see if I didn’t photograph them.
A wind farm is a group of wind turbines in the same location used to produce electricity.
We are making photographs to understand what our lives mean to us.
The best thing about a picture is that it never changes, even when the people in it do.
The camera is an instrument that teaches people how to see without a camera.
I really believe there are things nobody would see if I didn’t photograph them.
Grand Central Terminal. Opened in 1913.
Had a great time in New York promoting and matching Nordic-Baltics leading CleanTech companies & solutions.
The events was with SACC NYC and partner ICANN at Scandinavian House.
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CleanTech Region Impact Group supports cleantech, circular, impact companies, cities & ecosystems. With business, financing, story, inspiration & networks opening warm doors for sustainable growth.
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Photo Credit: Lars Ling
SACC NYC
All rights reserved @copyright
A wind farm is a group of wind turbines in the same location used to produce electricity.
We are making photographs to understand what our lives mean to us.
The best thing about a picture is that it never changes, even when the people in it do.
The camera is an instrument that teaches people how to see without a camera.
I really believe there are things nobody would see if I didn’t photograph them.
This was taken in California - on the road towards Paso Robles. California has some pretty large oil fields, although probably not as expansive as those in West Texas. It is most likely the Lost Hills Oil Field, the 18th largest oil field in California. It is estimated that there are 110 million barrels left. The largest operator is Chevron.
"Rise Early, Work Hard, Strike Oil" - J Paul Getty
With the unrest in Ukraine, the price of oil has been fluctuating. However, last Wednesday, it fell to near $100 a barrel as a report showed an increase in U.S. crude stockpiles and investors pretty much ignored the new sanctions on Putin's inner circle.
A rise in supplies suggested demand is not as strong as expected. The American Petroleum Institute said that U.S. stockpiles of crude oil expanded by 3 million barrels last week. If the API figures are confirmed by the Energy Department, U.S. crude oil stocks climbing above the 400 million barrel threshold for the first time.
Some of this can be attributed to the fracking boom in the US. Since 2008, "tight-oil" (oil reserves we have known about for decades, but have not been able to extract economically) production in America has soared from 600,000 to 3.5m barrels per day.
Steve Sellers of AREVA Solar stands amid the Compact Linear Fresnel Reflectors, the mirrors that focus sunlight to the top of the structure where molten salt is flowing. The resulting heat is stored and used later when the sun is not shining.
Read more at bit.ly/33l4ZkF.
Photo by Randy Montoya.
e were honored to host Mr. Vipul Patel, a prominent greentech entrepreneur and industrialist from JVS Comatsco, India, who was visiting Stockholm and Sweden in search of green solutions. His insights and experiences shared were precious. Thank you.
The focus and interest was on energy solutions such as storage, solar thermal, water, and waste-to-energy solutions, as well as discussions around Food and Agtech next-generation systems such as nanophotonics.
There were visits to innovation hubs such as Norrsken House and the Smart City Sweden showcase in Hammarby Sjöstad, corporate visits, and a brilliant session with Pär Larshans and Ragnsells.
Your cleantech and impact solutions could play a significant role in the Indian market. We invite you to connect and explore potential collaborations. A business-focused visit is scheduled from the end of July to the beginning of August.
Interested? Connect with Lars Ling.
Photo and video credit:
Lars Ling
All rights reserved (c) copyright.
e were honored to host Mr. Vipul Patel, a prominent greentech entrepreneur and industrialist from JVS Comatsco, India, who was visiting Stockholm and Sweden in search of green solutions. His insights and experiences shared were precious. Thank you.
The focus and interest was on energy solutions such as storage, solar thermal, water, and waste-to-energy solutions, as well as discussions around Food and Agtech next-generation systems such as nanophotonics.
There were visits to innovation hubs such as Norrsken House and the Smart City Sweden showcase in Hammarby Sjöstad, corporate visits, and a brilliant session with Pär Larshans and Ragnsells.
Your cleantech and impact solutions could play a significant role in the Indian market. We invite you to connect and explore potential collaborations. A business-focused visit is scheduled from the end of July to the beginning of August.
Interested? Connect with Lars Ling.
Photo and video credit:
Lars Ling
All rights reserved (c) copyright.
A wind farm is a group of wind turbines in the same location used to produce electricity.
We are making photographs to understand what our lives mean to us.
The best thing about a picture is that it never changes, even when the people in it do.
The camera is an instrument that teaches people how to see without a camera.
I really believe there are things nobody would see if I didn’t photograph them.
The City of Summerside PEI operates it's own 12 megawatt wind farm and with smart grid solutions has made dramatic progress integrating 46% wind power into their local grid. Photo David Dodge, GreenEnergyFutures.ca Full story: www.greenenergyfutures.ca/episode/pei-rocks-wind-power
The molten salt test loop (MSTL) at Sandia National Laboratories’ National Solar Thermal Test Facility in Albuquerque, New Mexico. Funded partially by the Department of Energy, AREVA’s solar team and Sandia’s molten salt technology experts have developed an innovative approach to energy storage that combines the MSTL with AREVA’s Compact Linear Fresnel Reflector applications.
Read more at bit.ly/1fRDVz9.
Photo by Randy Montoya.
What a great day in Stockholm, a lovely september morning with morning walk, fog in the morning and then clear blue sky and sun.
Stockholm was my home for 6 years, 1996 - 2001.
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Also I participated in the Salt X labs Hackathon, innovating smart energy solutions.
SaltX + Labs
Cleantech Region Impact Group is helping companies like SaltX so grow globally and create positive Impact for people and planet.
Contact for more info and connect with Salt X and leading CleanTech companies.
hello@cleantechregion.com
+46727406606
Photo Credit: Lars Ling
All rights reserved (c) copyright
The molten salt test loop (MSTL) at Sandia National Laboratories’ National Solar Thermal Test Facility in Albuquerque, New Mexico. Funded partially by the Department of Energy, AREVA’s solar team and Sandia’s molten salt technology experts have developed an innovative approach to energy storage that combines the MSTL with AREVA’s Compact Linear Fresnel Reflector applications.
Read more at bit.ly/1fRDVz9.
Photo by Randy Montoya.
The molten salt test loop (MSTL) at Sandia National Laboratories’ National Solar Thermal Test Facility in Albuquerque, New Mexico. Funded partially by the Department of Energy, AREVA’s solar team and Sandia’s molten salt technology experts have developed an innovative approach to energy storage that combines the MSTL with AREVA’s Compact Linear Fresnel Reflector applications.
Read more at bit.ly/1fRDVz9.
Photo by Randy Montoya.
Eric Sorte, a physicist at Sandia National Laboratories, has developed a thin detector that reveals chemical changes happening inside a lithium-ion battery as it is charging and discharging. The work will help researchers better understand and characterize batteries to improve them for renewable storage and national security applications.
Learn more at bit.ly/2GoLy0f
Photo by Randy Montoya.
A team of Sandia National Laboratories and AREVA engineers examine the focal point of the sunlight reflected from the rows of mirrors on the ground.
Read more at bit.ly/33l4ZkF.
Photo by Randy Montoya.
Lithium-ion battery cells are prepped for testing at Argonne’s Electrochemical Analysis and Diagnostics Laboratory (EADL). With the lab’s state-of-the-art, custom-built equipment, simulations are performed to provide information on battery characteristics such as life cycle and calendar life.
Photo courtesy Argonne National Laboratory.
The molten salt test loop (MSTL) at Sandia National Laboratories’ National Solar Thermal Test Facility in Albuquerque, New Mexico. Funded partially by the Department of Energy, AREVA’s solar team and Sandia’s molten salt technology experts have developed an innovative approach to energy storage that combines the MSTL with AREVA’s Compact Linear Fresnel Reflector applications.
Read more at bit.ly/1fRDVz9.
Photo by Randy Montoya.
This illustration shows the inner workings of a lithium-ion battery.
When delivering energy to a device, the lithium ion moves from the anode to the cathode. The ion moves in reverse when recharging.
Compared to other rechargeable batteries, lithium-ion batteries can store more energy in smaller, lighter packages. This unsurpassed energy-to-weight ratio make them the battery of choice for consumer electronics like cell phones and laptops, but also a great fit for electrified vehicles.
Illustration courtesy Argonne National Laboratory.
Venkat Srinivasan, Director, Argonne Collaborative Center for Energy Storage Science (ACCESS), discusses battery research with Jason Croy, Materials Scientist, in one of the energy storage discovery labs at Argonne National Laboratory.
Image credit: Wes Agresta
Senior scientist Stan Atcitty has been recognized by the Institute of Electrical and Electronics Engineers for his contributions to energy storage and generation. After a rigorous evaluation process, less than 0.1% of voting members are selected as fellow annually.
Learn more at bit.ly/3Mhdsgi
Photo by Lonnie Anderson
A wind farm is a group of wind turbines in the same location used to produce electricity.
We are making photographs to understand what our lives mean to us.
The best thing about a picture is that it never changes, even when the people in it do.
The camera is an instrument that teaches people how to see without a camera.
I really believe there are things nobody would see if I didn’t photograph them.
Prince Edward Island is the smallest province in Canada with a total population of 147,000. The economy of the home of Anne of Green Gables is fueled by farming, the fishery and tourism. Most of the electricity generated on-island is wind power.
Photo David Dodge, GreenEnergyFutures.ca Story on PEI: www.greenenergyfutures.ca/episode/pei-rocks-wind-power
Summerside PEI isn't just talking about what smart meters can do, they have connected 30% of the homes in the city to a smart grid that controls furnaces and hot water heaters that store excess wind energy as heat for use when the wind is not blowing. Greg Gaudet is the director of municipal services in Summerside. Photo David Dodge, GreenEnergyFutures.ca
Postdoctoral researcher Martha Gross works in an argon glove box with a test battery cell illustrating a lab-scale sodium iodide battery. The Sandia National Laboratories research team developed a new sodium iodide catholyte solution (purple liquid) and a special ceramic separator to allow the molten sodium battery to operate at 230 degrees Fahrenheit (110 degrees Celsius).
Learn more at bit.ly/3eHKCFI
Photo by Randy Montoya
Sandia National Laboratories researchers Leo Small, back right, and Erik Spoerke, back left, observe as Martha Gross, front, works in an argon glove box on their lab-scale sodium iodide battery. This new kind of molten sodium battery could prove to be a lower-temperature, lower-cost battery for grid-scale energy storage.
Learn more at bit.ly/3eHKCFI
Photo by Randy Montoya
Argonne National Laboratory's battery research is aimed at lowering the cost and increasing the lifetime and safety of high-power lithium-ion HEV batteries. Read more...
Researcher Panagiotis Prezas examines a battery cell in Argonne’s Electrochemical Analysis and Diagnostics Laboratory. With the lab’s state-of-the-art, custom-built equipment, simulations are performed to provide information on battery characteristics such as life cycle and calendar life.
Photo courtesy Argonne National Laboratory.
Researcher Lee Walker examines a lithium-ion battery cell in Argonne’s Electrochemical Analysis and Diagnostics Laboratory (EADL). With the lab’s state-of-the-art, custom-built equipment, simulations are performed to provide information on battery characteristics such as life cycle and calendar life.
Courtesy Argonne National Laboratory.
Greg Gaudet, director of municipal services at the Summerside P.E.I. wind farm–the City went from diesel power to wind power in less than 10 years and today gets 46% of its electricity from wind power, one of the highest rates in North America. Photo David Dodge, GreenEnergyFutures.ca See blog, video and CKUA podcast: www.greenenergyfutures.ca/episode/148-summerside-communit...
PNNL scientists have been investigating high-pressure hydrogen material compatibility and surface degradation of aluminum-coated lead zirconate titanate (PZT) surfaces for applications in clean-burning hydrogen internal combustion engines. This lead (Pb) spider-like formation was discovered during the research. It was imaged with the Environmental Molecular Sciences Laboratory’s helium ion microscope and may have battery applications. Contributing to this project are PNNL researchers Kyle Alvine, Vaithiyalingam Shutthanandan, Wendy Bennett and Stan Pitman.
This image was a part of the 2011 PNNL Science as Art contest.
Terms of Use: Our images are freely and publicly available for use with the credit line, "Courtesy of Pacific Northwest National Laboratory." Please use provided caption information for use in appropriate context.
PNNL has designed and is testing a modular 1kW/1kWh vanadium redox flow battery with an optimized stack design. The battery incorporates PNNL’s new electrolyte chemistry, delivering 80% increased power capacity, 90% increased efficiency with about half the operating cost of current vanadium redox flow batteries. The battery also has greater operational temperature range, broadening the potential application scope and potential to store large amounts of energy from renewable yet variable resources, such as solar and wind.
Terms of Use: Our images are freely and publicly available for use with the credit line, "Courtesy of Pacific Northwest National Laboratory." Please use provided caption information for use in appropriate context.
Lithium-ion battery cells are prepped for testing at Argonne’s Electrochemical Analysis and Diagnostics Laboratory (EADL). With the lab’s state-of-the-art, custom-built equipment, simulations are performed to provide information on battery characteristics such as life cycle and calendar life.
Photo courtesy Argonne National Laboratory.
The record-breaking catalyst stuffs electrons - the backbone of electricity, seen here as yellow balls or yellow halos - into chemical bonds between hydrogen atoms (H) stolen from water. It uses inexpensive nickel (Ni) to do so, instead of the more common and expensive platinum.
For more information, visit www.pnnl.gov/news
Terms of Use: Our images are freely and publicly available for use with the credit line, "Courtesy of Pacific Northwest National Laboratory." Please use provided caption information for use in appropriate context.
Florence School of Regulation
Florence, 23 September 2011
Workshop: Electricity Storage
organized by Pippo Ranci \ FSR
To make electric cars really take off, we need a battery that's powerful enough to take a car 350 miles and cheap enough to be widely affordable—and also light, long-lived, and safe. Of course, we also want laptops that last 100 hours and big battery farms to store electricity generated by fickle solar and wind power, and each problem might need a different solution. Nobody knows yet for sure, but here are the primary contenders for the next generation.
Originally printed in Argonne Now, the science magazine of Argonne National Laboratory. Read the issue »