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China, Chinese China High Oxygen Dissolved Ejector Aerator, Laval Jet Pod Aerator1 Industrial Products Supplier Manufacturer Details, price list catalog:
China Industrial Products Supplier Manufacturer List Catalog
Environment Protection DeviceOther Environment Protection DeviceLaval Jet Pod AeratorSurface AeratorImpingement Aerator
JIANGYIN HETAI INDUSTRIES COMPANY LTD.
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Product Description Multi-channel Vortex Jet Aerator (MJA) HOW MJA WORKHigh-pressure wastewater enters from the inlet pipe at the bottom, distributing evenly into each integrated jet pipe. At the entrance of the jet pipes, a strong vortex is created by a vortex generator, leading to a powerful swirling action.This swirling flow creates a negative pressure area at the end of the throat pipe due to the high-speed jet as it passes through. Pressurized air is introduced into the air chamber via an air inlet pipe and then directed into the integrated jet pipe through both the air chamber's vent holes and the throat pipe's air inlet.In this negative pressure zone, air and water make full contact and are thoroughly mixed and dissolved in a swirling state. The mixture then moves into the mixing tube to continue the process of mixing, dissolving, and diffusing, which increases the efficiency of oxygen dissolution.The integrated jet pipes are angled at 60 degrees relative to the cylinder, causing the air-water mixture that is ejected to strike the bottom of the aeration tank forcefully. This action thoroughly stirs the sediment at the tank's bottom, preventing sludge accumulation in dead zones and increasing the trajectory of microbubbles in the water, which helps to improve the efficiency of oxygen dissolution. ADVANDAGESMaintenance-free - no moving elements in ejector aeratorsHigh oxygen efficiency - Fine bubbles create large contact surfaces between air and water and high turbulence renews these contact surfaces..No deposits - The intensive jet flow directed towards the tank floor prevents deposits of biomass.Straightforward control of oxygen supplyNon-clogging construction - The nozzle diameter defines the narrowest flow cross-section.No sealing problems - When the plant is inactive, water can enter the air pipeline without negative effects and when re-started, the ejector's entraining effect expels any liquid in the pipe.Design acc. to requirements - Various sizes can be designed and adapted to requirements. COMPARATIONS TO OTHER AERATION SYSTEMS Jet-aerationMicro-bubble air diffuserSurface aerationService lifeLongSimple structure and longservice lifeShortComplex systemand short-liveddiffuser membraneFairInstallationEasyEasy and quick mounting,ComplexComplex mountingrequirementDifficultHeavy device and difficultto mountAdjustingflexibilityFlexibleBoth air and circulationwater flow can beadjusted independently.Only air flow can beadjusted.Oxygen supply andmixture shall be adjustedsimultaneouslyOxygen-supplyefficiencyHighLowLowMaintenanceConvenient maintenanceDifficult to maintainand trouble-shootHigh rusting risk atair-liquid mixing part, andneed frequent overhaulBlocking problemNo blockingEasy to be blocked--Mixture ofwater and sludgeAbundant mixture ofwater and sludgeLittle mixture ofwater and sludgeEasy to produce short-cutand blind angleSludge sedimentcharacteristicsGoodZooglea is compact andactive Fair Risk of sludge filamentation bulking is high.GoodZooglea is compact andactive INSTALLATION Multi-path ejectors inside aeration tanksWhen equipping an aeration tank with ejectors, there will not be any moving parts in the tank which would require maintenance. The ejector's mechanical stress corresponds to that of a pipeline with a higher flow velocity inside. Roots blowers/compressors and pumps can be installed outside the tank for easy maintenance.Once the tank geometry, water depth and oxygen requirements have been determined then number, execution form and arrangement of the multi-path ejectors can be adapted to the case in question. Their mounting can be effected quite simply by two flanges in the pipelines for motive flow and compressed air. Installation of compact units on the tank floor guarantees comprehensive aeration and complete intermixture of the waste water.As material we use polypropylene which has excellent resistance to chemical attacks. For particularly demanding application conditions the motive nozzles as well as also the mixing zones can be made of chrome-nickel steel. When there are high calcium carbonate concentrations in the aeration tank the choice of materials must always be adapted to the operating conditions. Installation from outside through the tank wallThe ejector shown here is made of stainless steel and is mounted "through-the-wall". Its connections for motive flow and compressed air are located outside the aeration tank..These comparatively large units are equipped with a second downstream mixing zone in which additional liquid is sucked in, so intensifying the intermixing action in the tank.If required, the ejector can be equipped with a shut-off device downstream of the motive nozzle so that the motive nozzle can be checked at any time without having to empty the tank.This equipment option allows for a permanent application of the oxygen transfer system, even with extreme concentrations of calcium carbonate in the waste water. Although the relatively large ejectors are inferior regarding oxygen efficiency to our multi-path ejectors with finer air bubbles, their 100% availability is often the decisive criterion for our customers. It is therefore not remarkable that many plants have been realised in the paper industry - sometimes also as a retrofitting action to replace inadequate installations. Oxygen efficiencyAs oxygen transfer not only depends on bubble size (contact surface between gas and water) but to the same measure on the renewal of the gas bubble contact surfaces, ejectors - with their permanent circulation of the waste water - can so achieve a far larger oxygen efficiency than other aerators. With their inclined flow direction towards the floor K?rting ejectors utilise the respective tank depth completely as entrance depth. Extensive oxygen supply tests in pure water (ATV M-209) acc. to the oxygen adsorption method form the data basis for designing K?rting ejectors. All measurements were executed on full-scale plants and confirmed in numerous inspection tests.At the usual entrance depths of 5...8 m it is possible to achieve an oxygen efficiency OC20 in clean water of 11 g O2/Nm3 ? m. In partial load operation - at a reduced air amount - the oxygen efficiency can be boosted above this value as far as 14 g O2/Nm3 ? m. Depending on entrance depth and oxygen requirements approx. 400-500 Nm3/h of compressed air can be injected into the tank by one single ejector.Control range and oxygen yieldRegulation of the oxygen supply is achieved solely by altering the air volume flow. A reduced air supply lowers the inlet pressure to the ejector thereby additionally reducing the power intake of the roots blower/compressor. At the same time the specific oxygen efficiency is increased. The result is a nearly constant high oxygen yield over the whole control range of the oxygen transfer system with its maximum value in partial load operation near the design point. Ejectors are designed - depending on the rheological properties of the activated sludge (temperature, dry solids contents) - for a suitable air/water ratio. The improved performance of the oxygen transfer system by simply increasing the air supply as well as its optimal oxygen efficiency in partial load operation are so guaranteed at all times.FEATURED PRODUCTS
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