If waste wood is utilized, woody biomass can be a form of renewable energy that complements solar and wind. Furthermore, gasifying the wood to produce electricity is a lot cleaner than disposing via controlled burns, and has a lower carbon footprint than decomposition, since decomposition often produces methane, and reverts all of the carbon to carbon dioxide, whereas with gasification, a portion is sequestered as char-ash.
Converting wood waste into electricity—lumber mill off-cuts, wood from forestry thinnings (cleared of leaf matter), disposal of wooden pallets and crating (with nails removed). Wood is chipped, dried, and used to produce electricity, reducing electrical costs and paid disposal.
Disposal by gasification also has far lower particulate emissions than controlled burns and a lower carbon footprint than decomposition, since methane emissions from anaerobic decomposition are avoided. Decomposing wood reverts all of its...
You`ll find Jeffrey Rader`s equipment employed in many stages of woody biomass processing. Woody Biomass is the residual waste wood that results from the lumber manufacturing process. It is burned in a boiler to generate steam that is used both in the lumber-drying process and to produce electricity. Jeffrey Rader is a leader in serving the electric utility industry with boiler feed systems (pneumatic and mechanical) for producing electric power from biomass materials.
Syngas (short for synthetic gas) can be burnt and used as a fuel source, the main constituents of syngas are Carbon Monoxide (CO) and Hydrogen (H), which amount for around 85% of Syngas, and it is produced by a process called Gasification.
Gasification starts with a base material which can originate from a wide variety of materials for example wood chips and pellets, plastics, municipal solid waste, sewage, waste crops, and fossil fuels such as coal. During Gasification the base material is reacted at high...
The use of alternative combustion fuels that provide a renewable source of energy is a major area of research and investment. Sources of biomass fuels include virgin wood, energy crops, agricultural residues, food waste and industrial waste. Controlling the combustion process of any new fuel and keeping track of the biomass fuel emissions of combustion by-products is important to users of these new fuels.
The Triogen ORC can be used with biomass combustion, for example sawdust, chips, bark and treated wood; and other biomasses, such as straw, rice, husks and bio-sludge, as well as other high organic-content waste. The Triogen ORC will be connected to the combustor. The Triogen ORC converts the flue gasses from the combustor into electricity.
Any company that has a need for both heat and power is an ideal fit for the Borealis wood power system, especially if located in a rural setting where energy costs are high. The application requirement must be for the full 45 kWh of power for immediate use. If power requirement is not that high, then this energy can be sold to the regional power grid often at preferred rates. Options for off-grid solutions are being reviewed.
Biomass energy from gasification, when done responsibly with waste wood or suitable agricultural waste such as nut shells, is often eligible for feed-in tariffs. However, biomass gasification has the advantage of being on-demand, so you can feed renewable energy onto the grid at times when wind and solar are not abundant, enabling you to avoid times when prices are too low due to an excess of wind or solar power being fed to the grid.
Particle board production requires huge amounts of hot gas at high temperatures for wood chips dryers. Besides generating heat for the main press, the thermal oil heater can generating hot water, steam or electricity (ORC application). VYNCKE offers a customized energy solution, burning a wide variety of process fuels and external fuels (all types of biomass).
Dead trees and wood from forest thinning can be chipped, dried, and converted to renewable energy while eliminating disposal costs.
Disposal by gasification also has far lower particulate emissions than controlled burns and a lower carbon footprint than decomposition, since methane emissions from anaerobic decomposition are avoided. Decomposing wood reverts all of its carbon content to CO2, but gasification sequesters a portion of it as charcoal waste, usable as biochar.