Under the leadership of GWE President and CEO Mr Jean Pierre Ombregt, GWE's
anaerobic waste water technology has been proved worldwide at more than 300 installations of totally enclosed tanks, or reactors.
While GWE's
anaerobic waste water technology has been proved worldwide at more than 300 installations of totally enclosed tanks, or reactors, this is the first time it has been applied to a covered lagoon, an application where it has enormous further potential in countries with strong agribusiness sectors.
Not exact matches
Tags: Ofwat, sludge,
water 2020,
anaerobic digestion, biogas, EA, Defra,
waste regulation, technical competence
Anaerobic digestion processes that radically improve the quality of
waste water while delivering green energy extracted from biological
waste streams are emerging as a profitable way for agricultural and food processing industries to cope with -LSB-...]
Thermophilic
anaerobic /
anaerobic systems have been proven internationally on slaughterhouse
wastes, including digestion of
wastes such as manure, stomach contents, blood and excess biosludge, which are transformed into biogas (methane), fertilizer and environmentally outstanding
waste water effluent.
High - temperature thermophilic
anaerobic digestion technologies, typically operating at 55 deg C, are part of a combination of processes that digest
waste water's organic content to produce green energy (methane) while achieving outstanding
waste water effluent qualities.
GWE is headed by green Global
Water Engineering CEO and Chairman Mr Jean Pierre Ombregt, who has been a world leader in anaerobic digestion of industrial effluents and green energy solutions for more than 35 years and whose company has been involved in more than 300 water and waste water projects in Asia, Africa, North and South America, Australia, China, Europe (including Eastern Europe) and Ru
Water Engineering CEO and Chairman Mr Jean Pierre Ombregt, who has been a world leader in
anaerobic digestion of industrial effluents and green energy solutions for more than 35 years and whose company has been involved in more than 300
water and waste water projects in Asia, Africa, North and South America, Australia, China, Europe (including Eastern Europe) and Ru
water and
waste water projects in Asia, Africa, North and South America, Australia, China, Europe (including Eastern Europe) and Ru
water projects in Asia, Africa, North and South America, Australia, China, Europe (including Eastern Europe) and Russia.
Many of these projects have attained outstanding
waste water processing efficiencies of up to and exceeding 99 per cent organic load removal by further steps in the
anaerobic process.
Anaerobic technology is particularly applicable to countries suffering drought, where treated
waste water not only provides green energy to substitute for fossil fuels emitting climate change gases, but also processes
waste streams to high recycling standards.
COHRAL (TM) technology — which is applicable to both livestock and cropping operations — uses concentrated
anaerobic bacteria to digest 70 per cent of the organic matter (COD, or Chemical Oxygen demand) in Oakey Abattoir's
waste water to produce effluent of far high quality than typical open lagoons.
The COHRAL (TM) Covered High Rate
Anaerobic Lagoon at Oakey Abattoir on Queensland's Darling Downs will extract green energy biogas from its
waste water streams to replace millions of dollars worth of natural gas currently consumed at the abattoir.
Another major benefit of covered
anaerobic lagoons is that the methane biogas produced within them is not only prevented from escaping into the atmosphere (where it is many times more damaging than C02 emissions) but is also harnessed to generate energy — rather than
waste water being heavy consumers of energy in processing and oxygenation.
The
Anaerobic Digestion Plant uses natural biological processes to both reduce output in distillery
waste water by -LSB-...]
Another major benefit of covered
anaerobic lagoons with efficient green energy storage is that the methane biogas produced is not only prevented from escaping into the atmosphere (where it is many times more damaging than C02 emissions) but is also harnessed to generate energy — rather than
waste water plants being heavy consumers of energy in processing and oxygenation.
The Global
Water Engineering (GWE)
anaerobic digestion technologies — to be featured on Stand S9 — extract biogas from virtually any biological
waste stream, including municipal food
wastes from restaurants, food service facilities, grocery stores, and municipal solid
waste, as well as organic
wastes from industrial processing facilities, food and beverage plants and agribusinesses.
The
anaerobic digestion technologies — recently applied to a major SE Asian pineapple producer — extract biogas from crop processing
waste water streams to simultaneously raise
water quality while generating methane to replace fossil fuels used in production processes.
She has kept a technical interest throughout her career leading projects in
waste water,
anaerobic digestion and sludge treatment technology development.
Tags: member's press release, huber technology, huber uk,
anaerobic digestion,
waste water, PAS 110, digestate, plant optimisation, digestate quality, UK AD & Biogas
Keywords: sedimentation sludge sewage effluent aerobic bacteria organic
anaerobic Objectives: Explain how
waste water is treated Describe how sewage is treated Compare the ease of treating
waste, ground and salt
water
Anaerobic digesters must meet local, state and federal regulatory and permitting requirements for air, solid
waste and
water.
This table summarizes state - specific air, solid
waste and
water permitting requirements as of May 2015 for livestock farm
anaerobic digesters in the states with the most operating
anaerobic digesters.