#AlternativeFuels | Explore Tumblr Posts and Blogs

tocarbonzero · 6 months

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Hydrogen is often mentioned as an ideal alternative fuel. Better energy density than batteries, and the combustion product is water. Unfortunately, most commercial hydrogen comes from natural gas because water splitting is a slow, energy-intensive reaction. A group at Dongguk University hopes to change that, with a more efficient catalyst based on molybdenum and ruthenium. Full technical details here.

#hydrogen #catalysts #water splitting #alternativefuels

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market-insider · 1 year

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Power-to-X Revolution: Innovations and Investments

The global power-to-X market size is expected to reach USD 645.3 million by 2030. Power-to-X (P2X) technologies enable the integration of renewable energy sources, such as wind and solar, into sectors traditionally reliant on fossil fuels. This trend is expected to accelerate as countries increase their renewable energy capacity and reduce their dependence on fossil fuels. Simultaneously, the increasing deployment of renewable energy sources, such as wind and solar, provides a reliable and abundant source of electricity for power-to-X processes. As renewable energy costs continue to decline, the economic viability of power-to-X technologies improves.

Power-to-X Market Report Highlights

The power-to-H2 segment led the market in 2022 accounting for over 40% of the global revenue owing to its capacity to integrate more renewable energy into these sectors, fostering the transition towards a low-carbon economy

The transportation segment held the largest revenue share of over 35% in 2022. Power-to-X technologies enable the production of low-carbon or carbon-neutral energy carriers, such as hydrogen or synthetic fuels, from renewable sources. Using these energy carriers, greenhouse gas emissions can be significantly reduced

The potential of power-to-X technologies in emerging transportation trends, such as hydrogen fuel cell vehicles, synthetic fuel, electric vehicles (EVs), and in shipping & aviation, with low carbon emissions, is immense

These technologies enable the integration of different industrial sectors within the energy system, fostering sector coupling. Excess electricity from renewable sources can be used to produce energy carriers, such as hydrogen, synthetic natural gas, or even synthetic liquid fuels, through power-to-gas or power-to-liquid processes

Europe held the largest revenue share of over 40% in 2022. As R&D efforts continue, the costs associated with PtX systems are expected to decline, making them more competitive and attractive for the European market

Gain deeper insights on the market and receive your free copy with TOC now @: Power-to-X Market Report

An increasing number of industries across various sectors have recognized the potential of green hydrogen, which is generated via power-to-X processes. Green hydrogen, produced by utilizing renewable energy sources splitting water into hydrogen and oxygen, offers many applications and benefits. As the world struggles with the urgent need to mitigate climate change and reduce carbon emissions, green hydrogen has emerged as a critical solution in the transition toward a sustainable and decarbonized future. Green hydrogen presents a viable alternative, as it can be used in fuel cell electric vehicles (FCEVs) to power cars, trucks, and even trains, emitting only water vapor as a byproduct.

Power-to-X processes have emerged as game-changers in producing synthetic fuels, chemicals, and materials supporting the ongoing efforts to mitigate climate change, reduce carbon emissions, and foster the adoption of carbon-neutral alternatives. The COVID-19 pandemic created various challenges and uncertainties, affecting the market dynamics and growth trajectory of power-to-X technologies. However, it has also presented opportunities for innovation and resilience in the crisis. A notable impact of the COVID-19 pandemic on the industry has been the disruption of supply chains. Travel restrictions, lockdown measures, and reduced economic activity have affected the availability and transportation of essential components and materials required for power-to-X processes.

This disruption has led to delays in project development and deployment, as well as increased costs and logistical challenges. COVID-19 has also demonstrated the importance of resilience, sustainability, and accelerating energy transition. Governments and international bodies have recognized the opportunity to align economic recovery efforts with clean energy investments and decarbonization goals. As part of stimulus packages and recovery plans, many countries have announced increased commitments to renewable energy and green technologies, including power-to-X solutions. This focus on sustainable recovery could significantly boost the power-to-X industry in the long term.

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synergymarine · 1 year

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𝐃𝐞𝐜𝐚𝐫𝐛𝐨𝐧𝐢𝐬𝐚𝐭𝐢𝐨𝐧 𝐟𝐢𝐯𝐞-𝐩𝐨𝐢𝐧𝐭𝐞𝐫 𝐠𝐞𝐭𝐬 𝐭𝐨𝐩 𝐦𝐚𝐫𝐤𝐬 With his entry Electro-Technical Rating Rahul Khatri of the "CAP SAN SOUNIO" was one of the winners in our essay contest themed “What is your vision for the maritime sector in 2050." Using embedded links to other materials, and some statistics which are just as troubling as they are encouraging, Rahul begins and ends by urging that we must start right away in tackling decarbonisation, as part of setting out his own five-point pathway. He charts speed reduction, Just-In-Time Arrival, ever-increasing LNG use, other fuel alternatives (such as wind propulsion and ammonia) and also overhaul and further development of land facilities, all of which are sketched as just part of the very great deal that still has to be done in addressing "nothing less than a global crisis". Progressively more would say that he is right, and commensurately few would now argue that he is wrong. We really need to get and keep, going. Read his full essay

#decarbonisation #netzero #alternativefuels #energytransition #cop27

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communicationblogs · 10 days

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Hydrogen Fuel Cell Vehicle Market — Forecast(2024–2030)

Hydrogen Fuel Cell Vehicle Overview

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A Hydrogen Fuel Cell Vehicle (FCV) is a type of vehicle that uses hydrogen gas to power an electric motor through a process called electrochemical conversion. Here’s a simplified breakdown of how it works:

1. The Fuel Cell System

Fuel Cell: At the core of an FCV is the fuel cell. This device combines hydrogen gas (H₂) with oxygen (O₂) from the air. The hydrogen is fed into one side of the fuel cell, and oxygen from the air is fed into the other side.

Electrochemical Reaction: Inside the fuel cell, hydrogen molecules are split into protons and electrons. The protons pass through a membrane to the other side of the cell, while the electrons travel through an external circuit, creating an electric current.

Combining with Oxygen: On the other side of the cell, the electrons and protons recombine with oxygen from the air to form water (H₂O) and heat. The water is expelled as vapor, which is the only emission from the vehicle’s exhaust.

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2. Powering the Vehicle

Electric Motor: The electricity generated by the fuel cell is used to power an electric motor. This motor drives the vehicle’s wheels, similar to how it works in battery electric vehicles.

Battery: FCVs typically also have a small battery or supercapacitor to store excess energy generated by the fuel cell or recovered during regenerative braking. This helps manage power demands and improve efficiency.

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3. Hydrogen Storage

Tanks: Hydrogen is stored in high-pressure tanks within the vehicle. These tanks are designed to keep hydrogen safe and secure, typically at pressures around 700 bar (10,000 psi).

Refueling: To refuel, the vehicle is connected to a hydrogen pump at a refueling station, similar to how you would fill up a gasoline car. Refueling a hydrogen car takes just a few minutes.

4. Advantages

Quick Refueling: Unlike battery electric vehicles, which can take hours to charge, hydrogen FCVs can be refueled in a few minutes.

Long Range: They often offer a driving range similar to or greater than traditional gasoline vehicles.

Zero Emissions: The only byproduct is water vapor, making them an environmentally friendly option.

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5. Challenges

Infrastructure: Hydrogen refueling stations are less common and more expensive to build than electric vehicle charging stations.

Production: Most hydrogen is currently produced from natural gas, which is not very eco-friendly. Efforts are underway to produce hydrogen from renewable sources, known as “green hydrogen.”

Cost: The technology and materials used in fuel cells can be expensive, though costs are expected to decrease with advancements in technology and economies of scale.

In essence, a Hydrogen Fuel Cell Vehicle is a type of electric vehicle that uses hydrogen as a fuel to generate electricity on board, offering a clean and efficient alternative to conventional internal combustion engine vehicles and even battery electric vehicles.

For More Details please visit Our Website Click Here.

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subscribe1 · 2 months

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"Omega 1: The Future of Engines Without Cylinders or Pistons"

#youtube #Omega1 EngineOfTheFuture Cylinderless EfficientEngine AlternativeFuel Innovation Technology ElectromagneticEngine Astronaerospace

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ragini-14 · 7 months

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Hydrogen Vehicle Market Size, Demand and Trends Analysis by 2024-2030

The Hydrogen Vehicle Market Research Report 2024 begins with an overview of the market and offers throughout development. It presents a comprehensive analysis of all the regional and major player segments that gives closer insights upon present market conditions and future market opportunities along with drivers, trending segments, consumer behaviour, pricing factors and market performance and estimation and prices as well as global predominant vendor’s information. The forecast market information, SWOT analysis, Hydrogen Vehicle Market scenario, and feasibility study are the vital aspects analysed in this report.

The Hydrogen Vehicle Market is expected to grow at 64.7% CAGR from 2023 to 2030. It is expected to reach above USD 49.81 billion by 2030 from USD 0.56 billion in 2023.

Access Full Report:

https://exactitudeconsultancy.com/reports/14020/hydrogen-vehicle-market/

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advancebiofuel · 8 months

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Transforming waste into wonder at our Biodiesel Production Plant! 🌿🔧 Join the green revolution and ride the eco-friendly wave with us.

#AdvancedBiofuel #BiodieselProduction #RenewableEnergy #SustainableFuel #GreenTechnology #BiofuelPlant #CleanEnergy #AlternativeFuel #EnvironmentalImpact #GreenEconomy #Bioenergy #ClimateAction #Sustainability #CleanTech #RenewableResources #BiofuelProduction

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alexanderrogge · 9 months

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California Startup Converting Jets to Hydrogen

Genia Dulot - California Startup Converting Jets to Hydrogen:

#universalhydrogen #hydrogenfuel #hydrogen #efficiency #noisepollution #zeroemissions #alternativefuel #alternativeenergy #physics #aviation #transportation

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sholesgroupodcompamany · 1 year

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#CNGConversion #CNGKit #NaturalGasConversion #CNGVehicle #EcoFriendly #CleanEnergy #CNGFuel #AlternativeFuel #GreenTransport #CNGTechnology #FuelConversion #SustainableMobility #CNGConversionKit #EnvironmentallyFriendly #CNGConversionService #ReducedEmissions #EnergyEfficiency #CNGConversionCost #CNGConversionBenefits

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beingsanket · 1 year

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tocarbonzero · 2 years

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News Update 23 March 2023

It’s hard to evaluate this technology because a lot of the relevant information is redacted as confidential. But it sure looks to me like Chevron’s program to extract jet fuel from discarded plastic amounts to effectively burning the plastic and blanketing their neighbors with the resulting toxins. Calling it a “circular economy” project is a level of Newspeak that would make Orwell blush. https://www.propublica.org/article/chevron-pascagoula-pollution-future-cancer-risk

Washington state’s first carbon auction, held in February, raised about $300 million for climate-relevant community and infrastructure investments. The state sold more than 6 million allowances — each equal to one metric ton of carbon emissions — at $48.50 each. The price, substantially more than set by a similar program in California, likely reflects both Washington’s smaller size and the state’s more aggressive carbon reduction targets. https://crosscut.com/environment/2023/03/washingtons-first-carbon-auction-sold-pollution-300-million

If your electric vehicle’s range is less than anticipated, you might find yourself sitting by the side of the road. Certainly disruptive and annoying, but not as potentially catastrophic as an airplane running out of “fuel.” Startup Universal Hydrogen sees hydrogen-powered fuel cells as the best alternative to conventional jet engines. Obstacles range from reduced passenger capacity due to the size and weight of hydrogen tanks, to the lack of green hydrogen supplies. An early March test flight was, the company hopes, just the first step. https://www.seattletimes.com/business/boeing-aerospace/pioneering-moses-lake-flight-uses-hydrogen-to-power-regional-airplane

Solar installations require large open areas. So do farms. Often, rural communities see solar installations as a land-grabbing threat to agriculture. But in some climates, and for some crops, the two can combine to the benefit of both. https://www.pnas.org/doi/10.1073/pnas.2301355120

#AlternativeFuels #RenewableEnergy #Greenwashing #CarbonCredits #FuelCells

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futurride · 2 years

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#alternativefuel #Bennamann #CNHIndustrial #CNHIndustrialTechDay #ElectricVehicle #EV #Foxconn #Futurride #LNG #methane #MonarchTractor #NewHollandAgriculture #NewHollandT4ElectricPower #NewHollandT7MethanePowerLNG #RoadtoCarbonNeutralFarming #sustainablemobility #WenteVineyards

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marcosbellizia · 4 months

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Brazil can play a significant role in the used cooking oil (UCO) energy business due to several factors:

1. **Biofuel Expertise**: Brazil is known for its expertise in biofuel production, particularly ethanol from sugarcane. The country has a well-established biofuel industry and infrastructure, which can be leveraged for UCO biodiesel production.

2. **Abundance of Cooking Oil**: Brazil has a thriving food industry and a culture that includes deep-frying and cooking practices that generate a substantial amount of used cooking oil. This provides a reliable and abundant source of feedstock for UCO biodiesel production.

3. **Environmental Benefits**: Converting UCO into biodiesel offers significant environmental benefits, including reducing greenhouse gas emissions and promoting waste management. Brazil, with its focus on sustainability and environmental conservation, can further enhance its green energy initiatives by promoting the use of UCO biodiesel.

4. **Market Potential**: Brazil can tap into the growing market for renewable energy sources and sustainable fuels. As the demand for clean energy solutions continues to rise globally, UCO biodiesel can offer Brazil a competitive advantage in the energy sector.

5. **International Collaboration**: Brazil can also explore opportunities for international collaboration and partnerships in the UCO energy business. By sharing expertise, technology, and best practices with other countries, Brazil can further strengthen its position in the global biofuel market.

Overall, Brazil's established biofuel industry, abundant feedstock sources, environmental consciousness, and market potential position the country as a key player in the UCO energy business. By leveraging these strengths and exploring new opportunities, Brazil can make a significant contribution to the sustainable energy transition and the promotion of renewable fuels like UCO biodiesel.

Marcos Bellizia

www.marcosbellizia.com.br

@marcosbellizia

#UCO

#biodiesel

#UCOenergy

#RenewableEnergy

#SustainableFuel

#WasteToEnergy

#CleanEnergy

#AlternativeFuel

#self care #relationship quotes #inspiring quotes #positive mental attitude #poster #quotes #reading

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lovelypol · 2 months

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"Liquefied Petroleum Gas Market Outlook: Key Drivers and Trends 2024-2033"

Liquefied Petroleum Gas (LPG) is rapidly emerging as a cornerstone in the global energy landscape due to its versatility, efficiency, and lower environmental impact compared to traditional fossil fuels.

As a cleaner-burning fuel, LPG is playing a pivotal role in reducing carbon emissions, making it a popular choice for both residential and industrial applications. Its portability and high energy content make it ideal for use in remote areas, providing a reliable energy source where conventional gas pipelines are impractical. Furthermore, advancements in LPG technology are enhancing its safety and efficiency, fostering greater adoption in sectors such as transportation, where it serves as an alternative to gasoline and diesel. With governments and organizations worldwide prioritizing sustainability, the demand for LPG is poised to grow, driven by its ability to support greener energy solutions. As the world continues to seek balance between development and environmental stewardship, LPG stands out as a versatile, eco-friendly fuel that bridges the gap between current energy needs and future sustainability goals.

#LPG #SustainableEnergy #CleanFuel #GreenTech #EcoFriendly #EnergyTransition #CarbonReduction #AlternativeFuel #FutureOfEnergy #RenewableResources #IndustrialInnovation #SmartEnergy #TechTrends #EnvironmentalImpact #SustainableLiving

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tbrc34 · 2 months

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Hydrogen Fueling Station Market 2024-2033: Fueling the Future of Transportation

Hydrogen fueling stations are paving the way for a cleaner, more sustainable transportation infrastructure by offering a crucial refueling solution for hydrogen-powered vehicles.

These stations play a pivotal role in the hydrogen economy, providing drivers with convenient access to a zero-emission fuel alternative that emits only water vapor when used in fuel cells. Hydrogen fueling infrastructure is rapidly expanding, with stations being strategically deployed across urban centers and major highways to support the growing fleet of hydrogen vehicles. As governments and industries worldwide commit to reducing carbon emissions, hydrogen fueling stations are becoming integral to achieving ambitious climate targets. Their ability to refuel vehicles quickly, similar to conventional gasoline stations, and their compatibility with various vehicle types—from passenger cars to buses and trucks—make them a versatile and scalable solution for decarbonizing the transportation sector. With advancements in hydrogen production technologies, such as electrolysis powered by renewable energy sources, these stations are increasingly sustainable and contribute to a cleaner energy future.

#HydrogenFuelingStation #CleanTransportation #ZeroEmission #HydrogenEconomy #SustainableInfrastructure #FuelCellTechnology #RenewableEnergy #GreenEnergy #FutureMobility #ClimateAction #HydrogenVehicles #FuelingTheFuture #AlternativeFuel #GreenTech #EcoFriendly #HydrogenFuel #EnergyTransition #SustainableDevelopment #TransportationInnovation #CarbonFree

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ikno-io · 3 months

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Explore what is CNG (Compressed Natural Gas), its benefits, drawbacks, and future potential as an alternative fuel. Learn about its environmental advantages, cost-effectiveness, and safety aspects. read the full article: https://bit.ly/3xXDH82 #CNG #CompressedNaturalGas #AlternativeFuel #EnvironmentalBenefits #CostEffectiveFuel read more: what is cng

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