Only show results available in Virginia? Ok

waste gas technology Applications

  • Premium

    Oily Waste

    Wherever oil is produced, processed, transported or stored, our clients face large amounts of oily waste in many different forms. Our VacuDry® technology allows efficient and environmentally friendly treatment of all oily waste streams within a single plant. Due to the conditions under which the waste is treated (low temperature, vacuum and nitrogen blanketing), the recovered oil can then be reused after treatment. Find more information and the benefits of VacuDry® oily waste plants on http://www.econindustries.com/applications/oily-wastes

    By econ industries GmbH based in Starnberg, GERMANY.

  • Waste gas treatment for the LED industry

    Market analysts predict sustained growth in demand in the LED industry. After LED backlighting for the small LC displays of mobile phones and the LC displays of larger screens in the television market, the next potential growth market is the lighting industry: Sales of LEDs in this market in 2012 are almost USD 3.5 billion – thus nearly doubling since 2010. Analysts are expecting a growth of more than USD 7 billion in 2014 and believe that the total market for LEDs should peak at USD 17.7 billion.* A mass market of this scale for LEDs also means increasing emissions that need to be abated by specific waste gas treatment systems at the point of use. In the manufacture of products based on innovative light emitting diode (LED) technology, ammonia and hydrogen are used in large quantities as process gases. The environmental engineers at DAS have recognised this market trend and developed new solutions such as LARCH for waste gas treatment in MOCVD processes.

    By DAS Environmental Expert GmbH based in Dresden, GERMANY.

  • Waste gas & wastewater treatment for the solar industry

    Generating solar energy is considered `green technology`, even though the production of solar cells based on silicon predominantly uses process stages that have been common practice in the semiconductor industry for many years. As in the semiconductor industry the production of solar cells employs dangerous and environmentally harmful substances, which require abatement according to legal provisions. The production of photovoltaic cells therefore is subject to strict requirements for treatment of waste gases and wastewater. Solutions need to be easy and cost-effective. The contaminated wastewaters and waste gases should, under no circumstances, lower performance, endanger the health and safety of humans, or otherwise negatively affect the availability of production facilities. The safety of the production line must be guaranteed at every step and in every operating situation.

    By DAS Environmental Expert GmbH based in Dresden, GERMANY.

  • Premium

    Biogas recovery for waste to energy industries

    HydroThane BSP technology is the best method for H2S removal combining deep H2S removal, a very high reliability and availability, and low lifecycle costs. The clean biogas can be used to produce electricity or to replace natural gas in a boiler.

    By HydroThane STP BV based in KC `s Hertogenbosch, NETHERLANDS.

  • Premium

    Industrial Solution for gasification & synthetic gas

    Gasification and synthetic gas production from various waste products are becoming increasingly important energy recovery technologies. Often, the synthetic gas contains various hazardous contaminants including H2S, HCl and other acids, heavy metals, and tars. The gas requires cleaning before it is introduced in the engine or boiler. Most of these processes generate significant concentration of tars. The tars can vary from very low molecular weight to large and complex chains.

    By Macrotek Inc. based in Markham, ONTARIO (CANADA).

  • Premium

    Waste recovery for glass manufacturing

    Tetronics` twin torch system has been used continuously for the commercial production of high quality silica glass for optical applications since 1992. Tetronics’ unique twin torch technology allows a plasma arc to be created in space, which enables a falling stream of high quality silica powder to be melted at the junction of the two arcs to form an ingot of high optical quality silica glass. By using plasma as a clean and controllable heat source, the product has a high degree of integrity, because the absence of a natural gas flame means the resulting product is free from bubbles, contamination and other defects.

    By Tetronics (International) Limited based in Swindon, UNITED KINGDOM.

  • Premium

    Ultraviolet Disinfection for Oil & Gas Applications

    The process of disinfecting water with UV light is a proven technology for drinking and process water in many industries, however the high standards required by the offshore industry commanded the disinfection systems to be engineered way beyond the normal specification of many manufacturers` As the market leader for offshore UV systems, atg UV technology UV systems are used in a number of key areas in the offshore industry:- atg UV has provided UV systems to treat drinking water, waste water, hydraulic stimulation fluids (well injection and unconventional gas fracking) and SRB reduction for pipeline hydrotesting and corrosian protection. These systems are often supplied as skid mounted duty/standby packages, or containerised solutions and are designed to individual client specifications. Clients include: Shell, BP, Total, Statoil, AKER, British Gas, Veolia, Halliburton, Baker Hughes, BJ Services, ODE, Ormandy, SLP and Petrobrass.

    By atg UV Technology based in Wigan, UNITED KINGDOM.

  • Flaring Solutions for the Upstream Oil & Gas Industry - Oil & Gas Produced Water

    Because of the huge increase in U.S. natural gas production, there is elevated concern over the production of water that occurs in natural gas and oil fields. These concerns have led to additional state and federal regulations for low emission combustion technology and how companies will deal with produced water. ABUTEC’s high temperature enclosed combustors meet state and federal regulations for burning waste gas at a minimum of 99% destruction and removal efficiency (DRE), meaning almost 100 percent of the vapor to be destroyed is converted to CO2 and water. These combustors are of high quality, flexibility, low emissions, CSA-approved and able to burn very low calorific gas. Additionally, when combined with a heat exchanger, the unit can evaporate the excess produced water eliminating the need for expensive trucking or disposal.

    By ABUTEC LLC based in Kennesaw, GEORGIA (US) (USA).

  • High performance solid-liquid separation system for deepwell industry

    Deepwell facilities for the disposal of plant waste streams often employ nominally rated spray spun elements, bags, diatomaceous earth filters, and various other types of conventional filtration technology. These labor intensive systems provide protection of the well from occlusion by suspended particle matter, albeit often with high operational cost and limited assurance of reliable fluid quality. The ongoing challenge facing a deepwell system is the requirement that the formation into which the waste is being pumped must maintain its porous nature in order to operate effectively. Therefore, reliable, effective filtration to capture particles with the potential to plug the formation is critical. Pentair Porous Media’s proven advanced separation technologies have been employed in deepwell disposal systems to enhance system reliability, assure well integrity and lower operating costs and system maintenance.

    By Pentair Filtration Solutions, LLC based in Conroe, TEXAS (USA).

  • Premium

    Product and services for industrial - refineres industry

    For industrial customers, we offer cost-effective and environmentally attractive alternatives to oxidize, precipitate, segregate and remove unwanted pollutants, contaminants and by-products from waste streams and industrial processes. Whether using our time-proven CAIROX®, AQUOX®, and LIQUOX® permanganate-based products, our manganese based CARULITE® catalyst, or any of our other newly developed technologies, our long history and unmatched experience and environmentally friendly expertise provides customer specific solutions to many diverse industries.

    By Carus Corporation based in Peru, ILLINOIS (USA).

  • Environmental technology for water treatment industry

    In many fields of water treatment Körting ejectors are applied as gas introducing systems; Waste water aeration in aeration tanks and SBR-Plants. Introducing ozone or oxygen. Pressurised dissolved air flotation. Disinfection of potable water and de-acidification.  Further applications are: Diluting and conveying acids and lye during the process of regenerating ion exchangers.

    By Körting Hannover AG based in Hannover, GERMANY.

  • Wilsa ElectroWaveTM - Oil Harvesting / Removal

    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.

    By Hudson Industries based in Vienna, OHIO (USA).

  • Gas detection analyzers for wastewater treatment industry

    Regulations prohibit facilities from discharging flammable or explosive wastes from their processes into the wastewater collection system. These wastes are not only a fire and explosion hazard but they can also effect the efficient and effective operation of the treatment facility. PrevEx Flammability analyzers are used to continuously monitor the waste stream for flammable gases and vapors. Their unique design and operating technology make them the ideal analyzers for the harsh conditions found in the sewer environment.

    By Control Instruments Corporation based in Fairfield, NEW JERSEY (USA).

  • Energy and Fuels from Wood Wastes and Biomass

    Wood wastes include woods from forestry, railways – sleepers, telecoms – telephone poles, timber manufacturing processes and the construction industry. Many of these types of wood tend to be contaminated with chemicals and other materials. This contamination can make the waste wood difficult to use in traditional biomass to energy processes and potentially hazardous to the environment. Our Gasplasma® energy from waste technology is able to transform efficiently the organic biomass into a pure, hydrogen-rich synthesis gas and safely destroys any harmful or hazardous inorganic chemicals. All inorganic materials are made inert and vitrified into an environmentally benign product called Plasmarok® which can be sold as an aggregate for construction, generating a revenue stream.

    By Advanced Plasma Power (APP) based in Swindon, UNITED KINGDOM.

  • Premium

    Recycling Systems for the engineered fuel, biomass / RDF

    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.

    By Macpresse Europa S.R.L based in Vernate, ITALY.

  • Premium

    Flow meters for the environmental flow solutions

    Our flow measurement technology is ideal for applications ranging from landfill emissions to wastewater treatment and numerous applications in between. We have developed many flow meters and controllers to measure the emissions from landfills and other green house gas producers, in addition to being a long standing leader in the testing of emissions for large engines. Water treatment is also an important driver for the company as we continue to develop innovative solutions for waste water treatment.

    By Sierra Instruments, Inc. based in Monterey, CALIFORNIA (USA).

  • Premium

    Applications and Air Pollutants Removed in the Biomass Industry

    Flue gas particulate and acid gases from biomass and bagasse boilers. Removal of ethanol, CO2 scrubbers and yeast cells from fermenters.  Removal of ash particulate, tars, acid gases and ammonia from steam reformers, gasifiers, pyrolosis units and cooling of syngas streams to acceptable limits to enable use as a fuel source for power generation or as a feedstock for chemical products. For tar removal, combination technologies can be used including oil based scrubbing solutions to reduce waste water generation. Ethanol and yeast cell removal from fermenter off-gases. Methanol from processing operations. Hydrogen sulfide removal on landfill, digester and producer gases with regenerable chemistries. Odor control for biomass storage facilities including carbon monoxide removal in wood chip storage areas. 

    By Bionomic Industries Inc. based in Mahwah, NEW JERSEY (USA).

  • Premium

    Solutions for the food & beverages industry

    Food waste in general has a high energy density. This results in high yields when producing biogas through anaerobic treatment. Biogas is a very flexible energy product with proven capabilities in the power, transportation, and heat demanding sectors. In this sector, anaerobic digestion offers significant cost advantages over traditional disposal methods. By upgrading the biogas into natural gas using a DMT Environmental Technology system, a solid business case with an interesting return on investment is assured.

    By DMT Global Environmental Solutions BV based in Joure (NL), NETHERLANDS.

  • Water treatment for power plants

    The process of electricity generation from fossil fuels such as coal, oil and natural gas is water-intensive. Between 40-50% of all water abstracted and used in developed countries is used in the generation of electricity. Thus, a reliable, abundant and predictable source of raw water supply to a power plant is a critical factor in site selection. Water supplies are required to provide various process waters for the following essential main purposes such as make-up water, cooling water for steam turbine condensers, and auxiliary plant cooling water.

    The primary application of modern water treatment technology is to maintain the integrity and performance of the power plant. Critical plant applications have water purity or conditioning requirements that must be adhered to for safe, reliable and efficient power generation.

    Experience has shown that integration of water technology treatments with power plant design can be very important in reducing operational problems and component failures 

    At power plant worldwide there are increasing limitations on water availability and environmental restrictions on discharges. This is expected to promote measures for water conservation and to have an increasing influence on water treatment decisions. At power plant, the recycling of internal wastewater streams can extend from the recovery of individual high-quality waste streams, which can be reused either directly or after only limited treatment, through to the development of fully integrated water/wastewater treatment systems for zero liquid discharge. However, the application of reuse schemes requires site-specific assessment, as not all waters may be viable options for recovery.

    By De Nora Water Technologies based in Colmar, PENNSYLVANIA (USA).

Need help finding the right suppliers? Try XPRT Sourcing. Let the XPRTs do the work for you