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power storage Applications

  • Energy Storage

    The K&S Engineering company as a technology 'know-how' supplier has prepared algorithms for optimizing energy storage systems and developed a new simulation tool for it. Using this special simulation software, not only the major yield forecasts for the investors are done in detail, but it is also possible for the applied control algorithms to perform optimizations. With this, K&S offers a consultancy service combining photovoltaic-energy-storage-system design and the perfectly match of the upcoming control algorithms to be applied. As a supplementary service for investors and banks, K&S performs a technology and supplier evaluation in an technical risk assessment regarding the project. A first project with >30 MWp installed capacity in Japan with special requirements of the energy supplier and a nearly 20 MW battery power has already successfully been modeled by the K&S experts. For mor details please visit www.krugundschram.com

    By K&S Ingenieurpartnerschaft Krug & Schram based in Munich, GERMANY.

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    Carbon capture and storage (CCS) applications

    Carbon Capture and Storage (CCS) is an emerging method of reducing greenhouse gas (GHG) emissions of power plants. In a process called ‘scrubbing’, the carbon dioxide emissions can be absorbed into chemical solvents consisting of amines or carbonates. Scrubbing is a well-established method of carbon capture, with virtually every commercial CO2 capture plant in operation using this process. In the process, the first step is the removal of impurities from the flue gas, such as hydrocarbons and oxides of both nitrogen and sulfur (NOx and SOx). Next the purified gas is passed through an absorption column filled with the chemical scrubbing solvent. The solvent reacts with the carbon dioxide and selectively absorbs it from the gas stream. When CO2-rich solvent is heated, the carbon dioxide is released as a nearly pure gas.

    By Gasmet Technologies Oy based in Helsinki, FINLAND.

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    Waste recovery for nuclear wastes

    Nuclear waste is divided into low, medium, and high‐level waste by the amount of radiological character it contains. Low and Intermediate Level Nuclear waste is the radioactive waste resulting from nuclear facility consumables, clothing, laboratory equipment etc. This waste can adversely affect human health and the environment and therefore must be handled appropriately. Typically, the waste is kept underwater for 3-5 years until the radiation decays to levels that can be shielded by concrete in large storage casks, where it can be held for thousands of years. A challenge for the nuclear industry is the cost associated with conditioning, packaging and storage of these heterogeneous wastes. Therefore, a solution that can decrease the volume of nuclear waste, and reduce the amount of storage required, is considered a commercially advantageous option.

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

  • Dustless Lead Paint Removal & Nuclear Decon Tools for Power, Oil and Gas Industry

    Pipelines, large fuel storage tanks, transformer pads and countless power generating systems have been decontaminated and prepared for a fresh coat of paint in one step! There is no costly containment to setup before starting the job or additional cleanup after it’s done, because our shrouded power tools capture dust before it’s emitted. Our powerful HEPA vacuum deposits hazardous waste directly into a 55-gallon drum, safely sealed and ready for transport when full.

    By Pentek Inc. based in Coraopolis, PENNSYLVANIA (USA).

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    Environmental dewatering solutions for industrial wastewater processing

    TenCate Geotube technology provides cost-effective and sure dewatering and containment in a wide variety of industries.  In Power and Utility, Pulp and Paper and other general industries that produce sludge, TenCate Geotube dewatering technology enables the recovery of valuable materials, provides structural stability, improves water quality, or just reduces storage footprint by sometimes 50 to 80%.  The dewatering containers can be custom-sized to the application, placed in available space between other structures, and removed once dewatering is complete. In some cases, conditioners or polymers are used to promote flocculation to increase dewatering rate, improve solids retention and filtrate quality.

    By TenCate Geosynthetics Netherlands bv based in AE in Nijverdal, NETHERLANDS.

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    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).

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    Fly Ash - Industrial Vacuum

    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.

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

  • Digital Pathology

    Digital Pathology is an image-based information environment enabled by virtual microscopy. This involves imaging glass slides and saving and distributing their digital images for analysis, archiving and storage. The virtual microscopy slides are: •Scanned — using a microscope based scanning device that takes images of the whole slide via large scanning or stitching of smaller scans. This involves a motorized stage to scan the whole slide. Light source stability is important for scanning in order to prevent illumination variation across the whole scan. The X-Cite® exacte is commonly used in slide scanning systems. •Viewed — on a computer via viewing software •Managed — some of the slides have a barcode that is also scanned to enable archiving with patient information •Analysed — using image analysis tools and software, structures maybe automatically identified and quantified •Shared — digital pathology files may be shared over a network to gather additional expert opinion Digital pathology technology in no way replaces the expert eye and diagnosing power of a pathologist and a doctor. The only thing it saves is time to image the samples and also provides an efficient and organized way to archive the virtual microscopy slides for future consultations, record-keeping and disease comparison.

    By Excelitas Technologies based in Mississauga, ONTARIO (CANADA).

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