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Chemical Process Reactors
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Chemical Process Reactors are vessels designed to contain chemical reactions. One example is a pressure reactor. The design of a chemical reactor deals with multiple aspects of chemical engineering. Chemical engineers design reactors to maximize net present value for the given reaction. Designers ensure that the reaction proceeds with the highest efficiency towards the desired output product, producing the highest yield of product while requiring the least amount of money to purchase and operate. Normal operating expenses include energy input, energy removal, raw material costs, labor, etc. Type of Reactor we offerStirred reactorLimpet coil reactor Jacketed & Non jacketed reactors Inner coiled reactorsSolid thick walled reactors Our Reactor are fabricated from exotic material like, Titanium, Tantalum, Zirconium, Nickel, Monel, Inconel, Duplex & Super Duplex and Special grades of Stainless Steel
industrial reactors
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We are counted amongst the leading names in the industry, we offer our clients functionally advanced range of Industrial Reactors that are acclaimed among the clients for durable standards and smooth surface finishing. Our entire product range is functionally advanced in nature and is delivered in varied technical grades. Features: Superb performance Durability Robust design
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Best Deals from Chemical Reactors
Continuous Stirred Tank Reactor
100,000 Per unit
1 unit (MOQ)
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Continuous Stirred Tank Reactor
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FLUIDIZED AEROBIC BED REACTOR
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The FBR process is the latest advance in attached growth aerobic biological treatment technology. FBR employs RING PAC MEDIA, neutrally buoyant bio film carrier elements, to achieve outstanding BOD/COD removal productivity from a compact bioreactor. In Fluidized Bed Reactors, the liquid to be treated is pumped through a bed of small media at a sufficient velocity to cause fluidization. In the fluidized state the media provide a large specific surface for attached biological growth and allow biomass concentrations in the range 10-40 kg/m3 to develop. For aerobic treatment processes the reactor is aerated. This is done by recalculating the liquid from the reactor to an oxygenator where air, or possibly oxygen, is bubbled. To overcome problems related to high re-circulation rates, needed when there is high oxygen demand in the reactor, the reactor might be aerated directly. The basis for the use of fluidized bed systems is the immobilization of bacteria on solid surfaces. Many species of bacteria (and also other microorganisms) have the ability for adhering to supporting matrices. In this process, a volume of Ring Pac media is immersed in water and is fluidized (kept in constant motion) through the movement of gas and liquid in the treatment reactor. As the media supports a biomass concentration several times that achievable in activated sludge systems, treatment is significantly more productive. Advantages The FBR requires very less hydraulic retention time (HRT) compared to an extended aeration or activated sludge process to perform the same BOD reduction duty. High resident biomass concentration, intense mass transfer conditions and aggressive biomass-sloughing action enable the process to rapidly respond to variations in process load Less footprint area required for installation. Less operation and maintenance cost during plant operations.
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10 kl Continuous Stirred Tank Reactor
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10 kl Continuous Stirred Tank Reactor, GMP Vessel and Receiver
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