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This award marks the first Advanced Class Gas Turbines in the industry specifically designed and purchased as part of a comprehensive plan to sequentially transition from coal, to natural gas and finally to renewable hydrogen fuel, and creates a roadmap for the global industry to follow. and Hitachi, Ltd.
The California Energy Commission (CEC) adopted a report establishing offshore wind goals and moving the state one step closer to development of the clean energy resource off California’s coast. Additional transmission infrastructure will be needed to deliver offshore wind energy from this region to the grid.
The project is supported by DOE’s Hydrogen and Fuel Cell Technologies Office within the Office of Energy Efficiency and Renewable Energy. The project partners will generate zero-carbon hydrogen onsite via electrolysis with solar and wind power and reformation of renewable natural gas from a Texas landfill.
Markus Krebber (RWE), accompanied by Chairman of the Mining, Chemical and Energy Industries Union (IG BCE) Michael Vassiliadis, presented a project idea that envisions a new 2 GW offshore wind farm in the German North Sea to provide the Ludwigshafen chemical site with green electricity and enable CO 2 -free production of hydrogen.
In Germany, BSE Engineering and the Institute for Renewable Energy Systems at Stralsund University of Applied Sciences (IRES) have demonstrated the conversion of wind power into renewable methanol. The final results of the project with IRES will be available in line with the commissioning of the plants.
To generate the renewable electricity needed to feed production of green hydrogen, Cepsa will develop a 3GW portfolio of wind and solar energy projects with an additional €2-billion investment. It also has one of the highest wind and solar photovoltaic power generation and production capacity in Europe, and at the lowest cost.
IBM has developed an advanced power and weather modeling technology that will help utilities increase the reliability of renewable energy resources. The solution combines weather prediction and big data analytics to forecast accurately the availability of wind power and solar energy.
In a commentary in the journal Joule , Rob McGinnis, founder and and CEO of Prometheus , a company that is developing technology to remove carbon dioxide from the air and turn it into fuels, discusses the technology advances that could lead to the potential price-competitiveness of renewable gasoline and jet with fossil fuels. 2020.01.002.
In addition to hydrogen, other potential renewable fuels are being studied for future applications, and Wärtsilä engines are already capable of combusting 100% synthetic carbon-neutral methane and methanol. Hydrogen as part of the renewable electricity system of the future. —Marco Wiren, President, Wärtsilä Energy Business.
Bloom Energy, a developer of solid oxide fuel cell power generators, announced the ability of its Energy Servers to operate on renewable hydrogen. At peak times, some US states and countries already have more renewable power than their grids can handle.
The Front-Loading Net Zero report states that electricity production costs could be reduced by up to 50% by 2050 if countries and states adopt 100% renewable systems faster than currently planned. Utilities should keep repeating steps 1 - 3 until their systems run on 80 – 90% renewables.
The US Bureau of Ocean Energy Management (BOEM) will hold its second competitive lease sale for renewable energy on the US Outer Continental Shelf (OCS) on 4 Sept., offering nearly 112,800 acres offshore Virginia for commercial wind energy leasing. Map of the Virginia wind energy area. 2012, for a 60-day public comment period.
Neste and Kinder Morgan are transforming existing terminal assets into what can be considered green infrastructure, which will ultimately enable more American businesses and cities to power their fleets and supply chains with renewable fuels and other products. —Jeremy Baines, President of Neste US.
Green hydrogen from the plant will be available for domestic customers. A small dimethyl ether (DME) plant will be built either onsite or at another location, producing renewable DME from methanol for local industry. Iberdrola is developing 60 renewable and green hydrogen initiatives in eight different countries.
Researchers at MIT are proposing using a variation on pumped hydroelectric systems for storage of electricity produced by offshore wind farms. The key to this Ocean Renewable Energy Storage (ORES) system is the placement of 30-meter-diameter hollow concrete spheres on the seafloor under the wind turbines. Earlier post.).
Sundsvall Energi will partner with Liquid Wind to be the host and provide carbon dioxide for the second commercial-scale—100,000 t—electrofuel facility in Sweden. Biogenic carbon dioxide from the Sundsvall energy facility will be captured and combined with renewable hydrogen to generate green electrofuel, eMethanol.
The partners aim to replace coal-fired power plants with hydrogen-ready gas-fired power plants in Germany, and to build production of low carbon and renewable hydrogen in Norway that will be exported through pipeline to Germany. Building production facilities in Norway to produce low carbon hydrogen from natural gas with CCS.
Once built, the facility will be among the largest in Europe to produce sustainable aviation fuel (SAF) and renewable diesel made from waste. A range of certified sustainable vegetable oils, such as rapeseed, will supplement the waste feedstocks until even more sustainable advanced feedstocks are widely available.
The flagship project MethanQuest was launched in September 2018, and on it a total of 29 partners from research, industry and the energy sector have come together to work on processes for producing hydrogen and methane from renewables and for using them to achieve climate-neutral mobility and power generation.
With battery storage able to provide a unique role in balancing a renewable electricity grid, Toby Gill, CEO of Intelligent Power Generation, asks could innovations in green hydrogen and biofuel technologies contribute to a more optimized and economical energy mix? by Toby Gill, CEO, Intelligent Power Generation.
The intention is to set up a power-to-x competence center at the Brandenburg University of Technology Cottbus-Senftenberg and to construct a demonstration plant for the production of synthetic fuels and chemicals using electric power generated in photovoltaic and wind power plants. —Andreas Schell, CEO of Rolls-Royce Power Systems.
Starting in 2013, Audi will begin series production of TCNG models whose engines—derived from TFSI units—will be powered by e-gas: synthetic methane produced via the methanation of hydrogen produced by electrolysis using renewable electricity. Wind turbines are the first significant component of the Audi e-gas project.
However, there is a growing need to control energy flows intelligently in order to make optimum use of electricity from renewable sources. In this way, electricity from renewable sources can be tapped and stored as it becomes available.
Electricity sourced from sun and wind is used to split water into hydrogen and oxygen in a process called electrolysis. The hydrogen produced during electrolysis can be injected into the gas grid, used as fuel, converted into methane or methanol, and made available as industrial feedstock. The outcome is always green hydrogen.
While the country is one of the world’s largest producers of wind and solar renewable energy, it faces the issue of renewable energy being weather-dependent and prone to fluctuation. The uses of green methanol for commercial shipping have already been pioneered by Danish shipping giant Maersk.
US Secretary of the Interior Sally Jewell and Secretary of the California Natural Resources Agency John Laird released a landscape-level draft renewable energy and conservation plan covering more than 22 million acres in the California desert. The plan also includes an analysis of the potential environmental impacts of these alternatives.
The US Department of Energy (DOE) issued a draft loan guarantee solicitation for renewable energy and energy efficiency projects located in the US that avoid, reduce, or sequester greenhouse gases. Within the draft solicitation, the Department has included a sample list illustrative of potential technologies for consideration.
The European Commission’s Joint Research Center (JRC) published a policy brief showing that delivery of large amounts of renewable hydrogen over long distances could be cost-effective. This finding is important because access to sufficient amounts of renewable hydrogen at low cost is essential for achieving a climate neutral Europe by 2050.
The cost of new-build onshore wind has risen 7% year on year, and fixed-axis solar has jumped 14%, according to the latest analysis by research company BloombergNEF (BNEF). BloombergNEF’s estimates for the global LCOE for utility-scale PV and onshore wind rose to $45 and $46 per megawatt-hour (MWh), respectively, in the first half of 2022.
In Germany, the Volkswagen brand also offers a suitable electricity supply contract with “Volkswagen Naturstrom”, to guarantee fully certified green electricity from renewable energies. Electricity tariffs and algorithms already make it possible to charge the car at the point at which a lot of renewable energy is available.
Jedlix , a subsidiary of Dutch renewable energy company Eneco, has made its smart charging app available to all home-charging Tesla drivers. A previously conducted test among 40 Tesla drivers demonstrated that the app increases the share of renewable energy in the battery and reduces costs.
Leading Australian energy infrastructure company Jemena has signed a new deal to supply Australia’s emerging zero emission vehicle industry with renewably generated green hydrogen. Jemena’s Managing Director, Frank Tudor, said the deal will make hydrogen gas generated from solar and wind power available to the vehicle industry.
Arun Raju, director of the Center for Renewable Natural Gas at UC Riverside, recently received a $146,000 grant from Southern California Gas Co. SoCalGas) to examine the proposed 100% Renewable Portfolio Standard (RPS) and explore options that can help achieve emission reduction goals more efficiently and at lower costs.
However, a significantly lower carbon footprint is achieved when charging the car with renewable electricity, such as wind power. The availability of clean energy for both manufacturing and charging an electric Volvo makes a significant difference in terms of CO 2 impact. Source: Volvo Cars.
In order to ensure the advanced competitiveness of future Honda EVs, Honda also announced the goal to make all-solid-state batteries available for new Honda EV models to be introduced in the second half of the 2020s. Renewable Energy Efforts in North America. Advanced Battery Technology.
AW-Energy says that its wave energy device, when combined with other renewable energy sources, can enable significant green hydrogen cost reductions and is a viable solution in the drive to execute the world’s clean energy hydrogen roadmap. —Christopher Ridgewell, CEO of AW-Energy Oy.
A new Offshore Wind Installation Vessel (WIV) being built for Dutch contracting company Van Oord at Yantai CIMC Raffles shipyard in China will be powered by five Wärtsilä 32 engines capable of operating with methanol. It is made using hydrogen from renewable-sourced electricity and recaptured carbon.
For example, this means a system where the electricity that fuels Europe’s cars could come from rooftop solar panels, while buildings are kept warm with heat from a nearby factory, and the factory is fueled by clean hydrogen produced from off-shore wind energy. The strategy sets out 38 actions to create a more integrated energy system.
BP Wind Energy, through its wholly-owned subsidiary Rolling Thunder I Power Partners LLC, has signed a purchase agreement to install a high-storage battery at its Titan 1 Wind Farm in South Dakota. Situated on 7,500 acres in Hand County, Titan 1 Wind Farm is wholly owned and operated by BP Wind Energy.
Researchers at the University of Melbourne (Australia) have demonstrated a method of direct hydrogen production from air— in situ capture of freshwater from the atmosphere using hygroscopic electrolyte and subsequent electrolysis powered by solar or wind with a current density up to 574 mA cm ?2.
The only inputs needed are water and renewable electricity from wind, hydro power or photovoltaics. Green” hydrogen production is suited for long-term energy storage, hydrogen mobility and other applications, making optimal use of renewable energy sources. 20 MW module. The ammonia can be further processed into fertilizers.
The political agreement ensures significant availability of the renewable power needed to supply future Power-to-X facilities in the EU. The political agreement ensures significant availability of the renewable power needed to supply future Power-to-X facilities in the EU.
Hybrid systems of floating solar panels and hydropower plants may hold the technical potential to produce a significant portion of the electricity generated annually across the globe, according to an analysis by researchers at the US Department of Energy’s National Renewable Energy Laboratory (NREL). This is really optimistic. 2020.08.080.
Carbon emissions in China fell slightly int he first quarter of 2025 as more renewable energy and storage came available. The post China Is The World’s First Electrostate appeared first on CleanTechnica.
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