The conversion of biochemically derived material for the production of energy.
Biomass energy can contribute to renewable energy goals, but it has several drawbacks that limit its effectiveness as a sustainable alternative. The combustion of biomass can release greenhouse gases and particulate matter, potentially offsetting its environmental benefits. Additionally, large-scale biomass production can lead to deforestation and habitat destruction, as well as competition with food crops for land and resources. Lastly, the energy conversion efficiency of biomass is often lower than that of other renewable sources, making it less viable for widespread adoption.
there is not a thing negtive about biomass we need to save biomass it!
its pretty much everywhere. anything containing carbon is biomass. dirt is biomass. poop is biomass. a tree is biomass. you are biomass. so is your dog.. so, yeah; its pretty easy to get your hands on.
Biomass is considered a renewable energy source because it is derived from organic materials, such as plants and animal waste, which can be replenished over time. When managed sustainably, biomass can produce energy without depleting resources, as new crops or waste can continually be produced. However, its sustainability depends on factors like land use, harvesting practices, and the carbon emissions associated with its conversion to energy.
The renewable energy resource derived from burning organic material such as wood and garbage is called biomass energy. Biomass involves the conversion of organic materials into energy through combustion or other processes, releasing stored energy in the form of heat. This energy can be used for heating, electricity generation, and biofuels. Biomass is considered renewable because it can be replenished through sustainable practices.
Laura Kimes has written: 'Biomass conversion' -- subject(s): Biomass energy, Biomass conversion
A biomass conversion is a method for changing plant and animal materials into high-quality fuels.
V. Flanigan has written: 'Thermochemical Conversion of Biomass to Synthetic Fuels in a Large Experimental Facility' -- subject(s): Biomass energy, Biomass conversion, Synthetic fuels, Renewable energy sources
T. A. Milne has written: 'Sourcebook of methods of analysis for biomass and biomass conversion processes' -- subject(s): Biomass energy
The amount of energy produced by biomass can vary depending on the type of biomass and the conversion technology used. On average, biomass energy production can range from 1 to 10 watts per gram of biomass.
Conversion factors are used in chloroform fumigation technique to estimate the soil microbial biomass carbon content. The conversion factor is used to convert the measured amount of chloroform-incorporated microbial residues to estimated microbial biomass carbon. This helps in assessing microbial activity and biomass in soil ecosystems.
Charles Wereko-Brobby has written: 'Biomass conversion and technology' -- subject(s): Biomass energy
The amount of biomass made by producers
Paul N. McFarlane has written: 'Biological Conversion of Biomass to Methane, Final Subcontract Report 1 January 1980 t0 31 March 1981' -- subject(s): Biomass energy, Agricultural wastes as fuel, Biomass conversion, Methane
The time it takes to make biomass varies depending on the specific process and technology being used. Generally, the conversion of organic materials into biomass can take anywhere from a few days to several weeks, depending on factors such as the type of feedstock used and the efficiency of the conversion method.
Thomas A. Milne is known for writing books such as "Plant Behavior and Intelligence" and "The Particle Odyssey: A Journey to the Heart of the Matter." He is an author who focuses on scientific topics related to plant behavior and particle physics.
John T Pfeffer has written: 'Biological conversion of biomass to methane' -- subject(s): Methane, Biomass energy, Corn, Silage