Biomass produces a cleaner, renewable energy, reducing harmful carbon dioxide emissions, all while creating lower operating costs for power plants.
Biomass, the by-product of pulp and paper, agriculture, and municipal sludge, is perhaps the oldest source of renewable energy on Earth. Biomass' use in energy production is currently growing worldwide at an exponential rate.
Superior Boilers can be found burning digester methane gas, hydrogen, tallow (animal fats), biodiesel, sanderdust and recovering heat from biomass systems. In addition, Superior Boiler Works, Inc. has partnered with the biomass experts AESI located in Wichita, KS USA. AESI offers turnkey expertly designed biomass sytems and offers burn tests for a diverse array of materials
Companies engaged in biomass processing are increasingly adopting stationary pre-shredder technology to increase the delivery of consistent, specific carbon-neutral biomass energy products. This selected fuel is attractive to operators of incineration facilities who are keen to reduce their overall carbon emissions.
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...
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.
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.
Harness the energy that’s inside your biomass! For too long, human and naturally produced substances have been disregarded. Straw, hay, tobacco, nutshells, miscanthus, pulse parings, cotton and flax are valuable resources for heat energy generation. The briquette shape makes your waste more cost effective to transport and ready in a saleable format. The calorific value of highly compressed briquettes is much greater than of lose material also optimising the combustibility characteristics. Additionally,...
Cogeneration plants with Turboden ORC can produce heat from biomass and electrical power from biomass with high efficiency and user friendly operation. The generated power usually ranges between 200 kW and 15 MW electric.
Is it suitable for you?
Local utilities feeding district heating
Pellet manufacturing companies
Manufacturers of MDF / OSB panels
Engineered Fuel and waste fuels are an increasingly important resource Waste-derived materials as an alternative to oil, gas and coal, selected and treated with the most up-to-date technologies, can be transferred into energy thanks to their combustible properties, these efforts assist us to obtain zero waste.
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.
One of the most widespread liquid electrical insulating materials is transformer oil. It is used to fill the pores in the fiber insulation and the space between the windings, thereby increasing the dielectric strength of the insulation and improving the heat removal from the windings and the core of a transformer.