FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1009709042> ?p ?o ?g. }

• W1009709042 endingPage "502" @default.
• W1009709042 startingPage "453" @default.
• W1009709042 abstract "This chapter analyzes the characteristics of major associated processes in thermal desalination, which includes: venting, steam Jet Ejectors, demisters, and MSF Weirs. Venting in the thermal desalination is driven by steam ejectors for removal of the non-condensable gases during startup and operation. During maintenance and other shut down procedures, the flashing chambers in MSF or the evaporation effects in MEE are opened to ambient air. Therefore, air removal is one of the main activities in the startup procedure. The startup ejectors have higher capacity and are capable of processing large air volumes over a short period of time. Conventional jet ejector has three main parts: the nozzle, the suction or mixing chamber, and the diffuser. The nozzle and the diffuser have the geometry of converging/diverging venturi. The diameters and lengths of various parts forming the nozzle, the diffuser, and the suction chamber together with the stream flow rate and properties define the ejector capacity and performance. The ejector capacity is defined in terms of the flow rates of the motive fluid and the entrained stream. Their sum gives the mass flow rate of the compressed gases. Further, wire mesh mist eliminator or demisters is a simple porous blanket of metal or plastic wire that retains liquid droplets entrained by the gas phase. Demisters are used in distillation or fractionation, gas scrubbing, evaporative cooling, evaporation and boiling, and trickle filters. Today, the wire mesh mist eliminator is widely used in thermal desalination plants. The main features of wire mesh mist eliminators are low-pressure drop, high separation efficiency, reasonable capital cost, minimum tendency for flooding, high capacity, and small size. The performance of wire mesh eliminators depends on many design variables such as supporting grids, vapor velocity, wire diameter, packing density, pad thickness, and material of construction." @default.
• W1009709042 created "2016-06-24" @default.
• W1009709042 creator A5001187360 @default.
• W1009709042 creator A5067937486 @default.
• W1009709042 date "2002-01-01" @default.
• W1009709042 modified "2023-10-18" @default.
• W1009709042 title "Associated Processes" @default.
• W1009709042 cites W156078928 @default.
• W1009709042 cites W1633710318 @default.
• W1009709042 cites W1963824349 @default.
• W1009709042 cites W1978017360 @default.
• W1009709042 cites W1995788281 @default.
• W1009709042 cites W2011499371 @default.
• W1009709042 cites W2013154447 @default.
• W1009709042 cites W2015312352 @default.
• W1009709042 cites W2027604132 @default.
• W1009709042 cites W2028373377 @default.
• W1009709042 cites W2036140921 @default.
• W1009709042 cites W2040315195 @default.
• W1009709042 cites W2047509202 @default.
• W1009709042 cites W2053183196 @default.
• W1009709042 cites W2054816894 @default.
• W1009709042 cites W2055505004 @default.
• W1009709042 cites W2055984018 @default.
• W1009709042 cites W2059158472 @default.
• W1009709042 cites W2069571859 @default.
• W1009709042 cites W2069934104 @default.
• W1009709042 cites W2073082752 @default.
• W1009709042 cites W2075521887 @default.
• W1009709042 cites W2076703938 @default.
• W1009709042 cites W2077664054 @default.
• W1009709042 cites W2080144453 @default.
• W1009709042 cites W2084100403 @default.
• W1009709042 cites W2089441551 @default.
• W1009709042 cites W2093453155 @default.
• W1009709042 cites W2105230012 @default.
• W1009709042 cites W2109390840 @default.
• W1009709042 cites W2161231361 @default.
• W1009709042 cites W2169659418 @default.
• W1009709042 cites W2260823864 @default.
• W1009709042 cites W2291161095 @default.
• W1009709042 cites W2322269428 @default.
• W1009709042 cites W2476236574 @default.
• W1009709042 cites W2486959945 @default.
• W1009709042 cites W2519255789 @default.
• W1009709042 cites W3093323453 @default.
• W1009709042 cites W3134423191 @default.
• W1009709042 cites W3142190991 @default.
• W1009709042 cites W3146256909 @default.
• W1009709042 cites W58365853 @default.
• W1009709042 cites W2076435149 @default.
• W1009709042 cites W2211107829 @default.
• W1009709042 cites W2276542965 @default.
• W1009709042 cites W2464742960 @default.
• W1009709042 doi "https://doi.org/10.1016/b978-044450810-2/50011-7" @default.
• W1009709042 hasPublicationYear "2002" @default.
• W1009709042 type Work @default.
• W1009709042 sameAs 1009709042 @default.
• W1009709042 citedByCount "0" @default.
• W1009709042 crossrefType "book-chapter" @default.
• W1009709042 hasAuthorship W1009709042A5001187360 @default.
• W1009709042 hasAuthorship W1009709042A5067937486 @default.
• W1009709042 hasConcept C41008148 @default.
• W1009709042 hasConceptScore W1009709042C41008148 @default.
• W1009709042 hasLocation W10097090421 @default.
• W1009709042 hasOpenAccess W1009709042 @default.
• W1009709042 hasPrimaryLocation W10097090421 @default.
• W1009709042 hasRelatedWork W2096946506 @default.
• W1009709042 hasRelatedWork W2130043461 @default.
• W1009709042 hasRelatedWork W2350741829 @default.
• W1009709042 hasRelatedWork W2358668433 @default.
• W1009709042 hasRelatedWork W2376932109 @default.
• W1009709042 hasRelatedWork W2382290278 @default.
• W1009709042 hasRelatedWork W2390279801 @default.
• W1009709042 hasRelatedWork W2748952813 @default.
• W1009709042 hasRelatedWork W2899084033 @default.
• W1009709042 hasRelatedWork W3004735627 @default.
• W1009709042 isParatext "false" @default.
• W1009709042 isRetracted "false" @default.
• W1009709042 magId "1009709042" @default.
• W1009709042 workType "book-chapter" @default.