This site uses cookies to improve your experience. To help us insure we adhere to various privacy regulations, please select your country/region of residence. If you do not select a country, we will assume you are from the United States. Select your Cookie Settings or view our Privacy Policy and Terms of Use.
Cookie Settings
Cookies and similar technologies are used on this website for proper function of the website, for tracking performance analytics and for marketing purposes. We and some of our third-party providers may use cookie data for various purposes. Please review the cookie settings below and choose your preference.
Used for the proper function of the website
Used for monitoring website traffic and interactions
Cookie Settings
Cookies and similar technologies are used on this website for proper function of the website, for tracking performance analytics and for marketing purposes. We and some of our third-party providers may use cookie data for various purposes. Please review the cookie settings below and choose your preference.
Strictly Necessary: Used for the proper function of the website
Performance/Analytics: Used for monitoring website traffic and interactions
And when my father made his dive with a bathyscaphe to the deepest spot on Earth in the Mariana Trench, his goal was to check if there was life down there at a period where the governments wanted to drop their radioactive and toxic waste in the ocean trenches. So that was a fantastic example. And I was thinking, How can I do that?
At the hubs, which can be built at or near landfills, Raven SR will convert mixed and multiple organic wastes, including municipal solid waste, greenwaste, food waste, medical, paper, etc. This permits the control of the rotary reformer when there is water content or chemical makeup variation in the feedstock, such as in MSW.
Researchers at the University of Cambridge, with colleagues at the University of Tokyo, have developed a standalone device that converts sunlight, carbon dioxide and water into formic acid, a carbon-neutral fuel, without requiring any additional components or electricity. —senior author Professor Erwin Reisner.
Berlin-based Graforce Hydro GmbH, the developer of a plasma electrolyzer—the Plasmalyzer —is applying its technology for the highly efficient generation of hydrogen from industrial wastewater. The technology we’ve developed is capable of cleaning wastewater and producing a low-cost, low-emission fuel from it.
The facility was developed and built in partnership with the Tokyo Metropolitan Government, TODA Corporation, TOKYU Construction, CHIYODA Kenko and researchers at Tokyo University of Science to help Japan meet growing demand for renewable hydrogen while demonstrating a new pathway for sustainable disposal of waste. Ways2H, Inc.
Waste Management, Inc. The strategic investment and alliance aims to expand the feedstock flexibility of Renmatix’s proprietary Plantrose process beyond rural biomass to include materials derived from cost-effective and readily available urban waste material such as that managed by Waste Management. Earlier post.).
Sasol and General Electric (GE: NYSE)’s GE Power & Water have together developed new technology that will cleanwastewater from Fischer-Tropsch plants used to produce synthetic fuels and chemicals, while also providing biogas as a by-product for power generation.
Korea’s Ulsan National Institute of Science and Technology (UNIST) have developed a novel process for the production of hydrogen using various types of biomass, including lignin, as an efficient alternative to water oxidation as an electron source. Conventionally, water is considered a cheap and clean source of electrons; 2H 2 O ?
a cleanwater company that recovers phosphorus and nitrogen from industrial and municipal wastewaters to create premium fertilizers, completed a US$14.5-million Ostara Nutrient Recovery Technologies Inc., million private equity financing. a fund managed by FourWinds Capital Management. a fund managed by FourWinds Capital Management.
Researchers at The Ohio State University have developed a novel process to clean coal mine drainage and extract rare-earth elements from it. The TEP process uses the alkalinity and filtering capacity of stabilized flue gas desulfurization (sFGD) material or water treatment plant (WTP) sludge to remediate CMD waters and extract REEs.
thyssenkrupp’s proprietary water electrolysis technology for the production of. conducted the necessary tests jointly in an existing water electrolysis plant operating as part of the Carbon2Chem project ( earlier post ) in Duisburg. green hydrogen meets the requirements for participation in the primary control reserve market.
The California Sustainable Energy Entrepreneur Development (CalSEED) program announced that the fourth cohort of innovative clean energy concepts has been approved by the California Energy Commission (CEC); 28 companies out of 212 were selected to receive grants of $150,000 each. Details of the 28 companies awarded a total of $4.2
Lithium Australia NL reported that its wholly owned subsidiary VSPC Ltd has successfully produced Li-ion battery cathode material, and Li-ion batteries (LIBs), from tri-lithium phosphate produced directly from mine waste using the SiLeach process. LFP and batteries from waste. SiLeach background.
Now the slick but dry state is becoming famous for water: that precious element that both resolves the drought problem and also makes it possible to pump more oil out of the ground. At the same time, the new technology uses no chemicals, rendering it quite possibly the ‘greenest’ water processing technology in operation today.
Globally, water demand is threatening to dangerously outpace supply, while in the US, dry states such as Texas and California are suffering from shortages and the future forebodes more suffering. For the North American shale boom, the lack of water is suffocating. How we can turn toilet water into tap water.
A new joint partnership between Casella Waste Systems, Inc. a privately held water desalination company in. laden brackish water from Marcellus Shale drilling. Brackish, salty water produced from drilling for natural gas. The first water treatment facility will be located at the Casella?owned owned landfill.
Energy Vault’s advanced gravity energy storage solutions are based on the proven physics and mechanical engineering fundamentals of pumped hydroelectric energy storage, but replace water with custom-made composite blocks, or “mobile masses”, which do not lose storage capacity over time. barrel per ton of feedstock.
A Northwestern Engineering-led team has developed a highly porous smart sponge that selectively soaks up oil in water. With an ability to absorb more than 30 times its weight in oil, the sponge could be used to clean up oil spills inexpensively and efficiently without harming marine life. —Vikas Nandwana.
These plants pump hot water from geothermal deposits and use it to generate electricity. The LDH sorbent is made up of layers of the materials, separated by water molecules and hydroxide ions that create space, allowing lithium chloride to enter more readily than other ions such as sodium and potassium. Lili Wu, Samuel F. 9b04340.
million to 16 water infrastructure projects. Modern technology has the potential to reduce energy use in aging water infrastructure, particularly in wastewater treatment, which demands up to 2% of domestic electricity use each year. The US Department of Energy (DOE) is awarding $27.5
The waste plastics to hydrocarbon fuels liquefaction technology is based on pyrolysis and distillation. The objective of the new agreement is to build 10 UK plants dealing with 60,000 tonnes of mixed plastic waste per year and to commission the first plant in London by end 2011. Cynar system. A hat-tip to Harold!).
Chevrolet will invest $40 million in various clean energy projects throughout the US with a goal to reduce 8 million metric tons of carbon dioxide emissions. Capturing methane from community landfills that delivers clean energy to the grid and improves local air quality and safety. Contributing to forestry projects throughout America.
will use water treatment technologies from Veolia Water Solutions & Technologies to process produced water from its Taiga Project at Cold Lake in Alberta. The evaporator system will recover more than 93% of the water from SAGD operations for re-use in the process. Osum Oil Sands Corp.
Seven major European research institutes (Fraunhofer, CEA, TNO, VTT, SINTEF, Tecnalia and SP) have joined forces to invest in a joint program (Value from Waste) aimed at tackling the recycling of rare earth metals from waste. The aim is to extract valuable materials from the waste streams. —Odd Løvhaugen, SINTEF ICT.
coal-cleaning plant in Alabama successfully reduced moisture from ultrafine coal waste. In some cases the water is evaporated to stabilize the deposits before they are recovered in surface reclamation; in others, the waste coal is not recovered for a variety of technological, operational, market, or other reasons.
Traditional PEM fuel cells have a relatively low operating temperature, which makes for a low tolerance to hydrogen fuel impurities and makes waste-heat rejection a challenge for vehicles. As the heavy-duty transportation industry seeks greener alternatives to combustion engines, HT-PEM fuel cells promise a clean, efficient alternative.
Raven SR, a renewable fuels company ( earlier post ), and Cap Clean Energy, a clean energy development company headquartered in Calgary, Alberta, signed a memorandum of understanding (MOU) to co-develop biofuels facilities in Canada to produce sustainable aviation fuel (SAF) and renewable diesel (RD) for the heavy duty transport sector.
Global clean energy investment was $67.8 billion in the third quarter of 2018, down 6% from the same period last year, according to the latest Clean Energy Investment Trends report from research company Bloomberg NEF (BNEF). Public markets investment in clean energy jumped 120% to $3.1 billion, up 9% on a year earlier.
The US Department of Energy’s (DOE’s) Advanced Research Projects Agency - Energy (ARPA-E) will award $38 million to 12 projects that will work to reduce the impacts of light-water reactor used nuclear fuel (UNF) disposal. Nuclear energy generates nearly a fifth of US electricity and accounts for half of all domestic clean energy generation.
Cyclone Power Technologies has received a purchase order from its licensee Phoenix Power Group (PPG) for two waste oil power generators. The new Phoenix 10kW waste oil generator will be powered by Cyclone’s WHE-25 engine—a compact, scalable waste heat engine—using a specially designed, clean emissions combustion chamber.
Thomas Built Buses, a subsidiary of Daimler Trucks North America LLC (DTNA), says it has become the first school bus manufacturer to achieve Zero-Waste-to-Landfill operations. Zero-Waste-to-Landfill means that everything received or produced by the company is used, reused, recycled or sold, and nothing is sent to the landfill.
The filters prevent tire wear particles and other environmentally harmful substances from being washed into sewers and bodies of water along with rainwater. Together with the TUB Department of Urban Water Management, the Audi Environmental Foundation is developing an innovative new filter concept for urban runoff.
The feed-stock reduction is achieved primarily by supplementing the process with oxygen and hydrogen produced by water electrolysis units that are powered by clean wind and solar generated electricity. DGF’s cellulosic feedstock does not impair food supply and is essentially water neutral. —Christopher J.
The Etanolix production process starts with receiving feedstock that has high carbohydrate concentrations, such as bakery waste. In the hydrolysis stage, the feedstock is diluted with warm water in order to convert it into slurry. St1 is a leader in waste-based ethanol production and production technologies.
American Process Incorporated (API) recently launched a waste-to-cellulosic ethanol biorefinery project in Alpena, Michigan. The biorefinery will convert the process waste effluent from the plant into cellulosic ethanol, sodium acetate and clean, warm water.
UK-based TMO Renewables Ltd, the developer of a novel thermophilic bacterium and process for converting biomass into fuel ethanol ( earlier post ), has entered into an exclusive contract with Fiberight LLC to design and build waste to bioethanol plants in the US.
SEAT has succeeded in lowering its water consumption per car produced by 31% in the past 8 years and is moving towards the goal of achieving 38% by 2025. The paint workshop and the rain test booth are the areas that consume the most water and where most progress has been made. m 3 in 2010 to 2.46 m 3 last year; close to 31% less.
Using renewable energy resources, the facility produces fuel for hydrogen vehicles, such as the WaiveCar, which only emit water vapor emissions. Styrofoam food service items will be phased out by 2021, and the use of single-use plastic water bottles will end in 2023.
Next, these fats are processed into renewable diesel by: Hydrotreating: Using high pressure hydrogen to remove the oxygen (which is converted to water). Isomerization: A chemical process that changes the structure of the molecules without changing the number of atoms. This enables the fuel to be used in cold weather.
The M-Series units are methanol reformers that use water plus methanol to make hydrogen. The units uses two input streams (methanol/water mix and combustion air) and produces two output streams (product H 2 and combustion exhaust). Source: e1.
has signed a memorandum of understanding with California-based PACE to collaborate with oil field operators in Texas and elsewhere to improve petroleum recovery and watercleaning for re-use at well sites, using a process it originally developed for algae harvesting. —Andrew Komor, vice president for environmental water at PACE.
Findings by MIT researchers could help advance the commercialization of supercritical water technology for the desulfurization and upgrading of high-sulfur crude oil into high-value, cleaner fuels such as gasoline without using hydrogen—a major change in refining technology that would reduce costs, energy use, and CO 2 emissions.
Cyclone Power Technologies and its licensee Phoenix Power Group (PPG) have announced positive results of preliminary emissions testing of the combustion system of the Phoenix 10, the first small-scale waste oil power generator. The reason for these extremely clean readings is Cyclone’s WHE-25 engine which powers the Phoenix 10.
The Utah Water Quality Board, in a 9-2 vote this week, agreed with the August 2012 recommendations of an administrative law judge (ALJ) upholding a permit-by-rule issued by the Division of Water Quality (DWQ) for the proposed PR Spring an oil sands mine on state land in eastern Utah. Overlay of the proposed plant site on the terrain.
We organize all of the trending information in your field so you don't have to. Join 5,000+ users and stay up to date on the latest articles your peers are reading.
You know about us, now we want to get to know you!
Let's personalize your content
Let's get even more personalized
We recognize your account from another site in our network, please click 'Send Email' below to continue with verifying your account and setting a password.
Let's personalize your content