biomass conversion technology Articles

  • Biowaste conversion technology for household food and energy security in the Philippines: appropriate on–site small–scale rice husk waste carbonisation

    Successful long–term domestic rice research to feed the rapidly increasing population in the Philippines facilitated increased production of the nation's staple from 11.786 MT in 1999 to 16.258 MT in 2008. The additional rice production has correspondingly increased the annual milled rice husk waste resource to around 3.4 MT - currently, a disposal problem for millers who often dump the waste in ...


    By Inderscience Publishers

  • Research and development on biomass energy in China

    Like developed countries, China is facing two serious constraints energy shortage and environmental pollution, which hinder the development of the national economy and improvements in living conditions. On the other hand, China has a huge amount of biomass resource. It is estimated that the total amount of biomass resource is up to 5.2x108 tons of oil equivalent (TOE) in which crop residue ...


    By Inderscience Publishers

  • Applying ERP to the biomass supply chain

    Green alternatives to hydrocarbon-based fuels are increasingly derived from recycled waste materials, including paper and packaging materials; residues from other industrial processes, and perhaps most importantly, biomass. Biomass comprises plant waste and plant by-products, and currently represents one of the most exciting avenues of research in the development of alternatives to fossil fuels. ...


    By MHG Systems Ltd

  • Woody Biomass as renewable energy source

    In-depth analysis in Minnesota assesses the feasibility and cost-effectiveness of regional biomass generated electricity projects that tap into local feedstocks. The Center for Energy and Environment (CEE) in Minneapolis, Minnesota undertook a multiphase research project to create a framework that communities and legislators can use to determine the feasibility of biomass-generated electricity in ...


    By BioCycle Magazine

  • The recent development of biomass energy in India: an overview

    This paper presents the current status and use of Biomass Technologies (BTs) in India. Different technology routes such as gasification, combustion and cogeneration are being actively developed to promote conversion of biomass materials such as agricultural, forestry and agro-industrial residues into electric power. The promotion of scientifically designed models of wood/biomass fired efficient ...


    By Inderscience Publishers

  • Energy from biomass and waste – case studies in China

    With its vast territory and abundant biomass resources, China appears to have suitable conditions to develop biomass energy. It has long been recognised that it is important to develop advanced technologies for conversion of biomass into clean and convenient fuels in order to raise the efficiency of biomass energy utilisation and alleviate air pollution. Through past efforts some progress in ...


    By Inderscience Publishers

  • Feasibility analysis for biomass in cities, counties and facilities

    The commercial waste industry includes all those who collect waste from the simplest “collect waste and transport to a landfill” to the more complex “collect waste and process into re-usable components and energy.” This article will cover how we can collect material and fuel a clean energy system for our immediate future, while saving clean water and air. ...


    By Waste Advantage Magazine

  • For a Green Future: an Overview of Biomass Energy in China

    Biomass energy Biomass refers to biological materials or organic materials which is renewable and sustainable and could be used as a fuel source. The energy derived from the biomass materials  is called biomass energy. Biomass energy as one type of renewable energy has be developed with priorities in China. Current situation of Biomass resource in China ...


  • Carbon Capture and Storage From Fossil Fuels and Biomass – Costs and Potential Role in Stabilizing the Atmosphere

    Abstract The capture and storage of CO2 from combustion of fossil fuels is gaining attraction as a means to deal with climate change. CO2 emissions from biomass conversion processes can also be captured. If that is done, biomass energy with CO2 capture and storage (BECS) would become a technology that removes CO2 from the atmosphere and at the same time deliver CO2-neutral energy carriers ...


    By Springer

  • Solar power generation by photovoltaic technology

    The various forms of solar energy, solar heat, solar photovoltaic, solar thermal electricity, and solar fuels offer a clean, climate-friendly, very abundant and in-exhaustive energy resource to mankind. Solar power is the conversion of sunlight into electricity, either directly using photovoltaic (PV), or indirectly using concentrated solar power (CSP). The research has been under way since the ...


    By Greenshine New Energy LLC

  • Latest analytical technology ensures biogas efficiency

    Anaerobic Digestion (AD) relies on the ability of specific micro-organisms to convert organic material into a gas that can be used to generate electricity. However, these bacteria require specific conditions if they are to function effectively and instrumentation specialist company HACH LANGE has developed a range of online, portable and laboratory instruments that have enabled a large number of ...


  • Wet electrostatic precipitators: A preferred technology for emission control

    The basic science behind electrostatic precipitators is as familiar and as simple as static cling. But today, this elemental force has been harnessed to a technology that is helping to remove millions of tons of toxic chemicals from our atmosphere; saving billions of dollars annually in pollution-related physical damage; and averting costly impacts on health and mortality rates for millions of ...


    By Beltran Technologies, Inc.

  • Future Perspectives in Bioreactor Development

    The paper discusses conversion capacities of both anaerobic and aerobic wastewater treatment systems in relation to growth kinetics, hydrodynamics and biomass concentration. In the current modern anaerobic high-rate reactors the conversion potentials are optimally exploited. This is not yet true for aerobic systems since operation of aerobic systems under conditions of low biomass growth reduces ...


    By Paques B.V.

  • Australian Renewable Energy Agency announces funding for biofuel production

    On February 24, 2015, the Australian Renewable Energy Agency (ARENA) announced $5.2 million in funding that would go to the design and construction of a pilot scale ...


    By Bergeson & Campbell, P.C.

  • `Legal, Regulatory & Political Considerations In Commercializing Algal Products` Panel Presented At ABO, October 1, 2015

    Hear BRAG's Richard E. Engler, Ph.D., and other panelists on Thursday, October 1, at the Algae Biomass Summit, which runs September 29 - October 2, 2015, in Washington, D.C. This is where leading producers of algae products go to network with industry suppliers and technology providers, where project developers converse with utility executives, and where ...


    By Bergeson & Campbell, P.C.

  • Bioenergy and the convergence of the markets for fuel, food, and fibre

    Don Roberts said four key variables are driving the economics of biofuel production: the price of fossil fuels, the cost of the feedstock, the “plethora” of conversion technology, and regulations, which stimulate demand. These variables are in flux, which presents a dilemma for investors, who “hate uncertainty.” Conversion technologies are at varying stages of market readiness. As “some of the ...

  • Beating treatment to enhance digestibility of fresh grass

    Anaerobic digestion (AD) is one of the most popular biomass conversion technologies. AD can be further divided into four stages: pre–treatment, digestion, gas upgrading and digestate. The main goal of pre–treatment is to improve degradability of the material in order to enhance gas production and anaerobic digester performance. Beating treatment as a new mechanical treatment technique has been ...


    By Inderscience Publishers

  • The technoeconomic assessment of the hydrogen fuel chain

    Options for hydrogen fuel chain are compared with the existing petroleum-based fuel chain for transportation. The criteria used are the life cycle cost (Rs/km), Greenhouse Gas (GHG) emissions (g/km) and Nonrenewable Energy (NRE) consumption (MJ/km). Four hydrogen production methods, one hydrogen transport method, three hydrogen storage methods and two on-board energy conversion methods are ...


    By Inderscience Publishers

  • Gasplasma transformation of waste streams

    The Gasplasma process developed by Advanced Plasma Power is an advanced thermal conversion (ATC) technology which has been developed for the treatment of a wide range of organic and inorganic wastes, including household wastes, hade wastes, wastes derived from landfill, and biomass. These wastes can comprise solid, liquid or gaseous wastes either singularly or in combination. The core Gasplasma ...


    By Advanced Plasma Power (APP)

  • Wood pellet research program and summary results

    BBRG’s vision is to create a comprehensive design package for pelleting technology, said Shahab Sokhansanj. “It will contain engineering data and procedures for procuring biomass, [and for] producing and delivering pellets as a choice feedstock to the emerging bioindustry.” He said he would debate the statement made earlier that morning that biomass is not a mature technology: “We need to improve ...

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