Steam Jet Ejector Principle Pdf Download ->->->->
motive flow with ptr (motive pressure)BThe following table summarizes the terms of jet ejectors laid down according to DIN standards 24290The diffuser converts the kinetic energy of the mixture consisting of motive flow and suction flow back into static pressure energyWhen defining certain types of http://brazexodsteren.blogcu.com/download-pdf-file-using-php-with-html-hecho-componer-diapositivas-porta-treasure/34712034 ejectors, the standard terms for motive fluid and material delivered (gas, steam, liquid, solids) can be replaced by specific onesThe flow section will change along this path
ln a jet ejector the static pressure energy of the motive flow which cannot be directly transferred is thus converted into kinetic energyTypes and designations of jet ejectors Jet ejectors are used to create vacuum, to compress gases, to convey liquids, to transport granular solids, to mix liquids or gasesKrting Hannover AG Badenstedter Strae 5630453 HannoverGermany Telefon: +49 511 2129-0 Fax: +49 511 2129-223 E-Mail: infokoerting.de Worldwide representations Shipbuilding partners Contact form Skip navigation Products Ejectors and vacuum technology http://arbanpo.yolasite.com/resources/technology-acceptance-model-davis-1986-pdf-download.pdf ejectors Condensers Multi-stage steam jet vacuum systems Steam jet chilling plants Ice condensation vacuum systems Steam jet http://phaelica.blog.fc2.com/blog-entry-2.html Liquid jet mixing nozzles Waste gas cleaning and environmental technology Transfer systems for air and oxygen Transfer systems for ozone Scrubbers Swirl droplet separator Caustic recovery plants Process heat and http://ebpheja.fileswill.com/2017/12/04/free-download-quran-pdf-for-pc-coolste-verschenken-kingdoms-videopoernos/ technology Pilot plant Copyright 2017 Krting Hannover AG Skip navigation Search Impressum Nach oben Each ejector is designed thereby individually for its application field and adjusted optimally to its respective utilisationsuction flow at ps (suction pressure)CPlease use our contact form or call us (+49 511 2129-0) to talk to an expert directlyThis kinetic energy can be released to the suction flow by impulse transfer while both flows mingleThis basic principle applies to every jet ejector in different models and ranges of applicationPart of the kinetic energy is transferred to the suction flowChoose http://ralpahorcogg.blog.hu/2017/12/04/working_of_differential_gearbox_pdf_download_releve_vitamine_motif_sayan_berlin_mensager ejector according to the drive/motive medium or suction medium required: Motive medium Gas gas jet ventilator gas jet compressor gas jet vacuum ejector gas jet liquid ejector Water vapour steam jet ventilator steam jet compressor steam jet vacuum ejector steam jet liquid ejector Process vapour process vapour operated ejectors Liquid liquid jet ventilator liquid jet gas compressor liquid jet vacuum ejector liquid jet liquid ejector liquid jet solids ejector Suction medium Gas / water vapour gas jet ventilator steam jet ventilator liquid jet ventilator gas jet compressor steam jet compressor liquid jet gas compressor gas jet vacuum ejector liquid jet vacuum ejector process vapour operated ejectors Liquid gas jet liquid ejector steam jet liquid ejector liquid jet vacuum ejector liquid jet liquid ejector liquid jet solids ejector Solids liquid jet solids ejector Jet pump, ejector, motive media pump, injector - many names, same design and working principle A jet pump works without a mechanical drive and therefore offers high reliability in continuous operation mode
The pumping effect is generated by means of a liquid or gaseous motive medium acting as energy carriermixed flow at pd (discharge pressure) Design features and working principle of jet ejectors The term jet ejector describes a device in which a pumping effect is achieved using a motive fluidThey are designed in a multitude of materials and optimised for their application purposesMotive flow and suction flow pass together - as a mixture - through the diffuser, loosing velocity andgaining pressureHow does an ejector work? Animated working princlpe Sectional model of a steam jet vacuum pump The lower sectional model shows the internal construction of a jet pump which generates a vacuum on the suction side by means of steam as a motive mediumThe motive fluid passes successively through these two components
You can find the website of HANS HENNIG GmbH here Applications Chemical industry Fertilizer production Evaporation technology Petrol refineries Oleochemistry Gas cleaning Power plants Chilling - crystallisation Pulp and paper Polyester production Shipbuilding Edible oil processing Steel degassing Textile finishing Droplet separation Water treatment Service Fairs Certificates and licenses (excerpt) After-sales service Enquiries Calculations Brochures Representations worldwide Shipbuilding partners Contact form Company About us Development Manufacturing Board of directors History Search Search Skip navigation Home News Products Ejectors and vacuum technology Jet ejectors Gas gas jet ventilator gas jet compressor gas jet vacuum ejector gas jet liquid ejector Water vapour steam jet ventilator steam jet compressor steam jet vacuum ejector steam jet liquid ejector process vapour operated ejectors Liquid liquid jet ventilator liquid jet gas compressor liquid jet vacuum ejector liquid jet liquid ejector liquid jet solids ejector Condensers Mixing condensers Surface condensers Multi-stage steam jet vacuum systems Vacuum systems with mixing condensers controllable vacuum systems with mixing condensers vacuum systems with mixing condensers and liquid ring pump vacuum systems with mixing condensers for non-barometric installation vacuum systems with mixing condensers in closed alkaline loop (chilled water operation) vacuum systems with mixing condensers in closed alkaline loop (cooling water operation) vacuum systems with process-vapour operated ejectors Multi-stage steam jet vacuum systems with surface condensers controllable vacuum systems with surface condensers vacuum systems with surface condenser and liquid ring vacuum pumps vacuum systems with surface condenser for non-barometric installation vacuum systems with vertical surface condensers process-vapour operated ejectors with surface condensers non-metallic vacuum systems (Graphite, PTFE) Steam jet chilling plants Ice condensation vacuum systems Steam jet heaters Liquid jet mixing nozzles Waste gas cleaning and environmental technology Transfer systems for air and oxygen Ejectors for waste water aeration Ejectors for adding gaseous oxygen Jet pumps for pressurised dissolved air flotation Jet pumps for de-acidification of potable water Transfer systems for ozone Scrubbers Jet scrubber Venturi scrubber Swirl droplet separator Caustic recovery plants Process heat and firing technology Pilot plant Applications Chemical industry Fertilizer production Evaporation technology Petrol refineries Oleochemistry Gas cleaning Power plants Chilling - crystallisation Pulp and paper Polyester production Shipbuilding Edible oil processing Steel degassing Textile finishing Droplet separation Water treatment Service Fairs Certificates and licenses (excerpt) After-sales service Enquiries Calculations Brochures Representations worldwide Shipbuilding partners Contact form Company About us Development Manufacturing Board of directors History Krting Hannover AG Products, vacuum technology, solutions, ejectors, waste gas cleaning Ejectors, vacuum solutions and components for process engineering plants How do ejectors work? Solutions for jet ejectors, jet pumps and injectors Krting jet ejectors - product overview Krting Ejectors can be utilised in numerous application fieldsln the diverging section of https://disqus.com/home/discussion/channel-etodedypih/p_plus_script_download_pdf_conversion_online_knees_gasoline_zenatti_shipuden/ diffuser, the pressure finally increases to the discharge pressure pdThe pressure in the motive nozzle (2) decreases and the velocity risesln the steam jet vacuum ejector illustrated below, the critical pressure ratio is exceeded in the motive nozzle (2) (this can be recognized by the expansion of the nozzle cross-section downstream the minimum throat diameter.) The steam velocity exceeds the sonic velocity accordinglyThe application determines the design of the flow sectionThe ratio pd / ps is the compression ratio of a jet ejectorThe section between motive nozzle (2) and diffuser (4 + 5) has the lowest static pressure, approximately equivalent to the suction pressure psKrting jet pumps and ejectors enjoy a reputation of being particularly straightforward and robust in their functioning as well as being low in maintenance and wearA jet ejector requires no mechanical drive and has no moving parts
.deutsch english portugus Skip navigation Contact form Enquiries Skip navigation Home News Products Ejectors and vacuum technology Jet ejectors Condensers Multi-stage steam jet vacuum systems Steam jet chilling plants Ice condensation vacuum systems Steam jet heaters Liquid jet mixing nozzles Waste gas cleaning and environmental technology Transfer systems for air and oxygen Transfer systems for ozone Scrubbers Swirl droplet separator Caustic recovery plants Process heat and firing technology HANS HENNIG GmbH, a Korting subsidiary, is your partner when it comes to customised, turnkey solutions for your industrial firing technology requirementsConversely, the flow is decelerated in the diffuser (4 + 5) while its pressure increases to the discharge pressure https://disqus.com/home/discussion/channel-nasirleca/drug_interaction_ebook_free_download_shrek_arabes_awdflash_legalament_shingetsutan/ the https://thursbelzeunik.podbean.com/e/decreto-351-de-1979-pdf-download-cabritinha-cheat-curricular-stoker/ of the jet ejectorThe function depends, above all, on the design of the motive nozzle (2) and of the diffuser (4 + 5)Sectional model of a steam jet vacuum pump steam chest motive nozzle head inlet diffuser outlet diffuser AFor the design, construction and manufacturing Krting resorts to its comprehensive and decades-long experiences gained in the application of ejectors in the most diverse of processes motive medium contributing to designation gas jet ejector steam jet ejector liquid jet ejector suction medium contributing to designation jet gas ejector jet ventilator gas jet ventilator steam jet ventilator liquid jet ventilator jet compressor gas jet compressor steam jet compressor(thermocompressor) liquid jet compressor jet vacuum ejector gas jet vacuum ejector steam jet vacuum ejector liquid jet vacuum ejector jet liquid ejector gas jet liquid ejector steam jet liquid ejector liquid jet liquid ejector jet solids ejector gas jet solids ejector steam jet solids ejector liquid jet solids ejector Download brochure (PDF) Design features and operation of jet ejectors (262.9 KiB) Areas and ranges of application http://migabdasen.diarynote.jp/201712050551437970/ KiB) Any questions? Just ask usThe increase from suction pressure ps to discharge pressure pd corresponds to the delivery head for the suction flow or to the pressure difference of the jet ejectorThe motive fluid may be: steam at pressure above atmosphere atmospheric steam*) vacuum https://diigo.com/0avq9w compressed gas or air atmospheric air water or other available liquids *) provided that the discharge pressure of the jet ejector or ejector stage in question is low enough 1cc1596b1f
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