LEC Partners’ Post

Biomass Feedstock for Renewable Energy Biomass Converted to Renewable Energy: During pyrolysis, biochar is only one of the many valuable bioenergy and bioproducts produced. Volatile gases (methane, carbon monoxide and other combustible gases), hydrocarbons and most of the oxygen in the biomass are burned or driven off, leaving carbon-enriched biochar. #BioEnergy #BioOil #BioGas

What are the calorific values of different biomass fuels LHV-HHV for energy applications? https://lnkd.in/gWWVTZKP #biomass, #renewableenergy, #calorificvalue, #sustainablefuel, #biofuel, #energycomparison, #greenenergy, #carbonneutral, #biomassfuel, #cleanenergy

Biomass Feedstock for Renewable Energy Biomass Converted to Renewable Energy: During pyrolysis, biochar is only one of the many valuable bioenergy and bioproducts produced. Volatile gases (methane, carbon monoxide and other combustible gases), hydrocarbons and most of the oxygen in the biomass are burned or driven off, leaving carbon-enriched biochar. All of the emissions (better known as air pollution and greenhouse gases) typically associated with burning biomass are captured and condensed into liquid fuels like bio-oil, industrial chemicals, or syngas (synthetic gas). These products can be containerized for sale, for future use at the production facility or used on-site as part of the process for energy production. #BioEnergy #BioOil #BioGas https://lnkd.in/grdZgQaR

Oriented pyrolysis of biomass for hydrogen-rich gas and biochar production: An energy, environment, and economic assessment based on life cycle assessment method

Discover how key findings from the recently released 2023 Billion-Ton Report (BT23) advances the U.S. to a cleaner future! Join the U.S. Department of Energy Bioenergy Technologies Office and Oak Ridge National Laboratory for an informational webinar on 4/16, to dive deeper into BT23 and learn about the potential biomass resources available in the United States. BT23 shows that the U.S. could sustainably triple its production of biomass to more than 1 billion tons per year. BT23 is the 4th report in a series of assessments, and explores biomass resources in terms of quantity, price, geographical density and distribution, and market maturity. During the webinar, speakers will cover key findings of the report and discuss its significance and impact to the economy, environment, and industry. Other topics will include: ✅Feedstock data and market scenarios ✅BT23 challenges ✅Alignment with White House priorities and goals ✅A demonstration of the publicly available BT23 data portal on the Bioenergy Knowledge Discovery Framework Register Today! https://lnkd.in/dWmkSkyy #bioenergy

Biorenewable hydrogen production through biomass gasification: A review and future prospects With rapid economic development and continuous growth of the world population, consumption of energy is sharply increasing. At present, fossil fuels still dominate the energy market, accounting for 87% of global energy consumption. This article highlights hydrogen as a clean energy carrier sourced from renewable biomass for sustainable bioeconomy. Thermochemical methods like gasification and pyrolysis are key for biomass-to-hydrogen conversion. While biomass gasification, particularly steam and supercritical water gasification, holds promise for large-scale use, enhancing hydrogen selectivity and efficiency is crucial for cost-effective industrial adoption. The review emphasizes the importance of operating conditions and catalytic system design. Challenges in biomass gasification for hydrogen production are discussed, urging further research to address critical gaps and enhance prospects. Link to the article: https://lnkd.in/gWDSSPES

Biorenewable hydrogen production through biomass gasification: A review and future prospects With rapid economic development and continuous growth of the world population, consumption of energy is sharply increasing. At present, fossil fuels still dominate the energy market, accounting for 87% of global energy consumption. This article highlights hydrogen as a clean energy carrier sourced from renewable biomass for sustainable bioeconomy. Thermochemical methods like gasification and pyrolysis are key for biomass-to-hydrogen conversion. While biomass gasification, particularly steam and supercritical water gasification, holds promise for large-scale use, enhancing hydrogen selectivity and efficiency is crucial for cost-effective industrial adoption. The review emphasizes the importance of operating conditions and catalytic system design. Challenges in biomass gasification for hydrogen production are discussed, urging further research to address critical gaps and enhance prospects. Link to the article: https://lnkd.in/gMVJWyDB

U.S. manufacturers produced about 880,000 tons of densified biomass fuels, as reported in the March edition of the U.S. Energy Information Administration’s Monthly Densified Biomass Fuels Report. During the same period, sales of densified biomass fuel totaled 960,000 tons. #biomassenergy #biomassenergy #RenewableEnergy #Bioenergy #CleanEnergy #SustainableEnergy #BiomassPower #GreenEnergy #Biofuel #ForestBiomass #ClimateAction

The meeting gathered representatives from key government ministries, knowledge partners, and research institutes to discuss the utilization of barren lands for biomass cultivation. This initiative is part of a broader effort under the National Green Hydrogen Mission to enhance green hydrogen production from biomass. Story by: Saurav Anand Ministry of New and Renewable Energy (MNRE)| #GreenBiohydrogen #NationalGreenHydrogenMission #BiomassCultivation #DegradedLands #BioenergyProduction #GreenEnergy #SustainableDevelopment #RenewableEnergy #EnergySecurity #ClimateAction #InnovativeTechnology

https://lnkd.in/gra5FqJ8 #Biomass co-firing, combining biomass and #fossilfuels in power generation, offers a promising way to reduce greenhouse #emissions. It leverages renewable energy sources while reducing overall #CO2 emissions as an alternative to direct fossil fuel combustion. However, including biomass in power plants introduces new challenges—especially regarding the corrosion of heat exchangers. Read on to learn more!