Bioenergy Applications

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  • Category: Energy & Renewables ×

  • Subcategory: Bioenergy ×

Low-temperature belt dryer for sawdust, pellets, wood chips and other biomass products

by STELA Laxhuber GmbH     based in Massing, GERMANY

Low-temperature belt dryer for sawdust, pellets, wood chips and other biomass products

Production of Biofuels from Microalgae

by AlgaEnergy, S.A.     based in Alcobendas, SPAIN

Production of biofuels from certain microalgae and cyanobacteria would appear to be the most promising alternative to current methods, since its yield is very high, sustainable, uses either wastewater, brackish or seawater, does not require the use of agricultural land, does not compete with human food and the cultivation process consumes the CO2noxious gas.

ALGAENERGY is responsibly paving the way towards making microalgal-based biofuels industrially profitable.  The R&D projects assigned to this task include work on selection and genetic engineering of different microalgae to produce substantial lipid-carriers, some of them patented, as well as the establishment of a suitable and scalable production process.

Membrane filtration systems for biotechnology and pharmaceutical industry

by GEA Filtration     based in Hudson, WISCONSIN (USA)

GEA Filtration is experienced in processing a wide range of products on a commercial basis and by testing products at the plant site or in our pilot plant testing facility. Definition of the Industrial Biotech and Environmental Biotech Sector. This sector uses living organisms to manufacture a variety of products that result in the reduction of pollution, resource consumption and waste. Typical products include bioethanol, industrial enzymes, biological fuel cells, enzymes for bioremediation, biodegradable plastics and much more.

Biomass Burning

by Superior Boiler Works, Inc.     based in Hutchinson, KANSAS (USA)

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

Evaporators technology for biogas and biofuels industries

by EVALED - Veolia Water Technologies     based in Zoppola (PN), ITALY

Combining industrial performance and sustainable development while remaining competitive requires that the biofuels and biogas industry ensure industrial process safety, reduce operational costs, implement solutions providing significant savings and comply with environmental regulations, which ultimately lead to the public’s acceptance of a site.

Wilsa ElectroWaveTM - Oil Harvesting / Removal

by Hudson Industries     based in Vienna, OHIO (USA)

WILSA Harvests Oil from Tank Bottom Sludge at Disposal Well. ElectroWave™ Technology optimizes onsite processing and reduces costs associated with saltwater disposal operations by breaking waste emulsions and recovering additional oil.

Industrial shredders for wood/biomass industry

by PRECIMECA Environnement     based in Toulouse, FRANCE

Reduction of volumes (14-02, MK3). Consult us for your installations of treatment: wood waste, falls of manufacture, cases, pallets, barks.

Waste shredding for the biomass industry

by Metso Recycling Equipment     based in Duesseldorf, GERMANY

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.

Agitators for Biogas Blants

by SUMA Rührtechnik GmbH     based in Sulzberg, GERMANY

Use the SUMA agitators to prevent the formation of floating and sinking substrate layers. Furthermore they ensure that the substrate maintains an equal temperature throughout. The homogeneously distribution of nutrients for the biological process enables more efficient gas flow out of the substrate.

Agitation and mixing solutions for ethanol / bio diesel

by National Oilwell Varco     based in Dayton, OHIO (USA)

Ethanol can be produced from a variety of raw materials such as corn, sugar cane, soy beans, switchgrass, corn stover, and cellulosic materials.   Corn can be processed in a dry or wet mill to produce ethanol.  Advances and research in ethanol continues to find new and more energy efficient ways to produce ethanol and biofuels and new raw materials for production.

biogas generating from organic waste

by Shijiazhuang Zhengzhong Technology INC.     based in Shijiazhuang City, CHINA

Glass fused steel tanks are used various digesters and reactors in biogas plants. * superior performance in corrosion resistance and against rust *factory fabrication tank . No painting or spray on erection site . * minimal maintenance cost * No need crane or other large equipment during erection * not subjected to severe weather and environment. * can be designed to future expansion, dismantle or re-movement. * free service for technical drawings * turn key service from proposal to tank commissioning .

Humid, corrosive and malodorous waste gases

by Chemisch Thermische Prozesstechnik GmbH / CTP Air Pollution Control     based in Graz, AUSTRIA

CTP's expertise with different coating systems, and an energy-saving pre-heater, protect the installation from corrosion even when waste gases are humid.

Hazardous waste treatment solutions for site remediation

by econ industries GmbH     based in Starnberg, GERMANY

The contamination of soils as a result of prior chemical production can often be unpredictable and diverse. The majority of such pollutants will require an ex-situ treatment method. Many of our VacuDry units can be used for direct-feeding contaminated soils. To reduce the input amount for thermal treatment, the VacuDry units can also be used in combination with soil-washing plants: In this case, customers only feed the high polluted fractions and screened fines (e.g. below 10 mm), as well as the filter-cake from the soil washing process. However, we are able to handle soil contaminated with mercury, hydrocarbons, PAH, PCB, dioxins, furans, organic-lead compounds and many more. VacuDry plants for on-site ex-situ remediation projects are delivered in a modular design.

International testing for biofuels

by Metrohm AG     based in Herisau, SWITZERLAND

Sustainable use of biofuels requires reliable and precise analytical methods throughout – from the choice of raw materials through to process optimization and on to the compliant final product. As a leading manufacturer of instruments for chemical analysis, we are quite aware of these challenges.

Water Storage for the Bioenergy Industry

by Superior Tank Co., Inc.     based in Rancho Cucamonga, CALIFORNIA (USA)

Superior Tank Co., Inc.  has a proven track record of designing and manufacturing factory-powdered coated bolted and welded steel storage tanks for the most challenging projects. Superior Tank’s staff of engineers can design and manufacture a tank that will fit your unique needs.

Wastewater treatment solutions for anaerobic sludge digestion sector

by QM Environmental Services Ltd.     based in The Hague, NETHERLANDS

Anaerobic digestion is a series of processes in which microorganisms break down biodegradable material in the absence of oxygen, used for industrial or domestic purposes to manage waste and/or to release energy. It is widely used as part of the process to treat wastewater, like Upflow Anaerobic Sludge Blanket (UASB) reactors. As part of an integrated waste management system, anaerobic digestion reduces the emission of landfill gas into the atmosphere. Anaerobic digestion is widely used as a renewable energy source because the process produces a methane and carbon dioxide rich biogas suitable for energy production, helping to replace fossil fuels. The nutrient-rich digestate which is also produced can be used as fertilizer. The digestion process begins with bacterial hydrolysis of the input materials in order to break down insoluble organic polymers such as carbohydrates and make them available for other bacteria. Acidogenic bacteria then convert the sugars and amino acids into carbon dioxide, hydrogen, ammonia, and organic acids. Acetogenic bacteria then convert these resulting organic acids into acetic acid, along with additional ammonia, hydrogen, and carbon dioxide. Finally, methanogens convert these products to methane and carbon dioxide.

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