coal power plant Applications

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Coal Combustion Residuals Disposal for Power Plants

by CETCO     based in Hoffman Estates, ILLINOIS (USA)

Coal combustion residuals (CCR) are generated during the power generation process and can include fly ash, bottom ash, boilerslag, and flue gas desulfurization (FGD) residuals. CCRs contain trace concentrations of heavy metals and therefore cannot be dumped or stored where rainwater can leach the metals. Liner systems can be used to contain the coal combustion by-products and protect them from leaching into the environment.

Primary air control for coal-fired power plants

by Kurz Instruments, Inc.     based in Monterey, CALIFORNIA (USA)

Power Generation Combustion Air Measurements: The need for accurate, repeatable & reliable combustion air measurements in power generation plants is critical to efficient operation and safety throughout the entire facility and processes. Coal-fired power plant applications pose a number of challenges to obtaining these critical flow measurements includ¬ing large ducts, limited metering runs, poor velocity and temperature profiles, high vibration, temperatures up to 750° F and dirty `Fly Ash` laden air.

Power Plant Coal Fired Boiler Filtration

by Zhejiang Grace Envirotech Co., Ltd     based in XIAOSHAN, CHINA

Dust filter PPS Filter Bags For Coal Fired Boiler Gas Filtration.

Low emissions auxiliary boilers to coal or otherwise fired power plants

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

Whether providing high-efficiency, low emissions auxiliary boilers to coal or otherwise fired power plants across the United States, or heat recovery steam generators to natural gas fired turbine plants you will find Superior Boilers serving the needs of power generation customers for years to come.

Power Plant & Power Station Emissions Monitoring

by Procal - Parker Hannifin Corp     based in Peterborough, UNITED KINGDOM

For more than 25 years, coal and biomass fired plants have formed the largest installed user base for Procal CEM systems. Throughout this period, there has been increasing environmental scrutiny and process upgrades, including the near-ubiquitous use of after-treatment systems such as sophisticated FGD and SCR.

Water treatment for power plants

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

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.

Environmental monitoring solution for power plant

by Ecotech Pty Ltd     based in Knoxfield, AUSTRALIA

The construction of coal and natural gas power stations is continuing at a steady rate along with older power stations being retrofitted with more effective flue gas cleaning systems. Both the community and environmental protection authorities are paying closer attention to both emission and ambient concentrations around power stations.

Mixers, dryers, innovative solutions for power plant technology

by AVA - Huep GmbH u. Co. KG     based in Herrsching, GERMANY

Conditioning of Ash and Dust

No matter where ash and dust accumulate, AVA continuous or batch mixers can condition them to a transportable final product for disposal or recycling. The applications range from power plant ash derived from lignite, hard coal, biomass, or waste incineration power plants to filter dusts from steelworks and coking plants through to special applications such as hot or reactive ashes from various processes, such as shale oil production.

Gas Detection Solutions for Power Generation Industry

by Boreal Laser Inc.     based in Edmonton, ALBERTA (CANADA)

Boreal possess an array of products for the power generation industry from emissions stack monitoring, boiler room monitoring, chloride leak detection, and ammonia slip in deNOX. Boreal’s products are tailor made for coal fired power plants, natural gas fired, and waste-to-energy. Whether gas detection is used for safety, process, or environmental reasons, Boreal has you covered.

Processing of Alternative Fuels for the energy industry

by Lindner-Recyclingtech GmbH     based in Spittal/Drau, AUSTRIA

RDF is a fuel that is normally produced from waste with high calorific value. The original waste comes from households, industry and commerce and is processed for energy extraction; it is meant for co-incineration plants and replaces standard fuels (e.g. coal) in production plants for cement, power plants or other co-incineration plants.

Gas monitoring during industrial process

by HANGZHOU ZETIAN TECHNOLOGY CO., LTD     based in Hangzhou, CHINA

EM-5 CEMS Coal power plant: Entrance of SCR denitration device, NOx O2 Exit of SCR denitration device: Measure remanet NH3 after reaction and avoid blocking by crystallization, NH3; Calculate denitrification rate with Nox input, NOx O2 Gas-fired power plant: Counting tail gas emission and realtime concentration, NOx O2 SO2 Temperature pressure flow dust

Alternative Fuel Production for Energy / Substitute Fuel Production for Energy

by eFACTOR3 LLC     based in Pineville, NORTH CAROLINA (USA)

Being driven by new legislation, the production of substitute fuel/alternative fuel will be gain momentum in the next few years, as well as the expected increase of recycling rate in municipalities. This means a lot of waste streams can be turned into alternative fuel for the coal fired power plant, cement and lime industry, biomass power plant, or other industrial boiler systems that still burning fossil fuels.

Fly Ash - Industrial Vacuum

by Vac-Con, Inc.     based in Green Cove Springs, FLORIDA (USA)

Fly Ash can cause many problems. The Vac-Con & Vector Pneumatic Vacuum systems can assist and solve many of these problems. Our high-performance vacuum systems are manufactured in three basic configurations: Truck mounted, Trailer mounted, and Fixed/static installed. Any of these systems can be integrated into the existing power plant design. All of our vacuum systems can be utilized to solve your plant’s fly ash removal/clean-up needs and can assist in many other maintenance projects. All can be tailored to fit into your power plant’s specific needs. Vac-Con Truck mounted Industrial vacuum systems are equipped with large storage debris tanks with self-cleaning intake filter systems. The Industrial Trucks vacuum the waste products through existing manifold piping or with hoses attached directly to the debris tank. When fully loaded, the truck can then drive directly to the disposal site and discharge the waste products. The Industrial Truck offers a great amount of flexibility of operation and can be utilized anywhere in your facility for many different types of normal and emergency maintenance operations. The Vac-Con Industrial Vacuum Truck can be utilized on both wet and dry materials. The same Vac-Con truck can be used for removing Fly Ash from your plant, coal from broken intake belt conveyors, or used to suck wet muddy material from storage lagoons. The Vector Trailer mounted Vacuum Systems are designed to be used in several locations around power plants. The Trailer mounted Vacuum Systems connect to Manifold piping located in key areas within your power plant. The Vacuum systems move the waste products from the plant and deposit these products into moveable storage containers. The loaded storage containers when full can then be moved to the disposal sites for discharge. Vector Static Mounted Vacuum systems are designed to vacuum and remove Fly Ash and other bulk waste products through manifold piping from operational areas of the plant and deposit these waste products into collection storage silos for later transport to disposal sites. The fixed vacuum systems are electric motor driven and are normally installed as a permanent addition to in-plant existing conveying systems. Please contact us with any requirements you may have. We will evaluate your request and respond with solutions specific to solve your problems and fit your needs.

Sulfide Oxidation with Hydrogen Peroxide (H2O2)

by USP Technologies     based in Atlanta, GEORGIA (US) (USA)

Sulfide Odor Control Sulfide is found throughout the environment as a result of both natural and industrial processes. Most sulfide found in nature was produced biologically (under anaerobic conditions) and occurs as free hydrogen sulfide (H2S) - characterized by its rotten egg odor. We are most likely to encounter biogenic H2S in sour groundwaters, swamps and marshes, natural gas deposits, and sewage collection/treatment systems. Manmade sources of H2S typically occur as a result of natural materials containing sulfur (e.g., coal, gas and oil) being refined into industrial products. For a variety of reasons - aesthetics (odor control), health (toxicity), ecological (oxygen depletion in receiving waters), and economic (corrosion of equipment and infrastructure) - sulfide laden wastewaters must be handled carefully and remediated before they can be released to the environment. Typical discharge limits for sulfide are < 1 mg/L. Sulfide Treatment Alternatives There are dozens of alternatives for treating sulfide laden waters, ranging from simple air stripping (for the low levels present in groundwaters) to elaborate sulfur recovery plants (used to treat several tons per day at refineries and coal burning power plants). There are processes based on biology (using compost filters, scrubbing media, or inhibition/disinfection), chemistry (oxidation, precipitation, absorption, and combination), and physics (adsorption, volatilization, and incineration). Each process occupies a niche which is often defined by the scale and continuity of treatment, whether the sulfide is in solution or is a gas, the concentration of sulfide involved, and the disposition of the sulfide containing medium. However, for reasons relating to convenience and flexibility, chemical oxidation (using hydrogen peroxide) continues to grow in its scope of application. Treatment with Hydrogen Peroxide While other peroxygens such as permonosulfuric (Caro’s) acid, peracetic acid, and persulfates will oxidize sulfide, their use for this application is overkill. Hydrogen peroxide (H2O2) is considerably simpler and more cost-effective. H2O2 may control sulfides in two ways, depending on the application: Prevention - by providing dissolved oxygen which inhibits the septic conditions which lead to biological sulfide formation; and Destruction - by oxidizing sulfide to elemental sulfur or sulfate ion.

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