01825nam 2200409 n 450 99639252790331620200824121731.0(CKB)4940000000114238(EEBO)2264193143(UnM)ocm99891331e(UnM)99891331(EXLCZ)99494000000011423819901128d1575 uy laturbn||||a|bb|Tēs Hellēnikēs glōssēs stachuologia[electronic resource] =Graecae linguae spicilegium, : ex praestantissimis grammaticis, in quatuor horrea collectum, breuissimis quaestiunculis & intellectu facilimis, ad puerorum intelligentiam dispositum, & in Scholae Westmonasteriensis progymnasmata diuulgatum. /Collectore E.G. Scholae eiusdem moderatoreLondini Ex officinia Henrici Binemani typographi pro Francisco Coldock1575[2]+ leavesE.G. = Edward Grant.First three words of title in Greek characters.Place and date of publication from colophon, which has device McK. 119, with "Num. XXI".Fragments: item at reel position E4:1[52b] has final colophon leaf only, cropped at bottom, with loss of date; item at E3:2[97] has title page only.Reproductions of originals in the British Library.eebo-0018Greek languageGrammarEarly works to 1800Title pagesEngland16th century.ColophonsEngland16th century.Greek languageGrammarGrant Edward1540?-1601.1009854Cu-RivESCu-RivESCStRLINCu-RivESBOOK996392527903316Tēs Hellēnikēs glōssēs stachuologia2343760UNISA04951nam 2200649 a 450 991101920120332120230422051434.0978661278333397812827833311282783335978047093544604709354489780470935439047093543X(CKB)2560000000016452(EBL)589012(SSID)ssj0000426194(PQKBManifestationID)11281216(PQKBTitleCode)TC0000426194(PQKBWorkID)10373305(PQKB)11407209(MiAaPQ)EBC589012(OCoLC)669165943(Perlego)2773686(EXLCZ)99256000000001645220000321d2000 uy 0engur|n|---|||||txtccrProfiles in flue gas desulfurization /by Richard R. Lunt and John D. CunicNew York, N.Y. American Institute of Chemical Engineersc20001 online resource (144 p.)Description based upon print version of record.9780816908202 0816908206 Profiles in Flue Gas Desulfurization; SECTION 1 Profiles in Flue Gas Desulfurization; SECTION 2 FGDTECHNOLOGY PROFILES Waste Producing Processes; Conventional Lime Slurry; Lime Slurry - Magnesium-Promoted; Limestone Slurry Natural Oxidation; Limestone Slurry Inhibited Oxidation; Limestone Slurry - Magnesium-Promoted; Alkaline Ash Scrubbing; Sodium/Lime Dual Alkali (Concentrated Mode); Lime-Based Spray Dry Absorption (SDA); Sodium-Based Spray Dry Absorption (SDA); Circulating Fluid/Entrained Bed - Lime-Based; Sodium-Based Duct Injection; Furnace Sorbent InjectionSodium Solution - Once-ThroughMagnesium Hydroxide Solution - Once-Through; Seawater Scrubbing; Sodium/Limestone Dual Alkali (Concentrated Mode); Circulating Fluid/Entrained Bed with NOx Control; Lime-Based Duct Injection; Lime-Based Economizer Injection - SOx-NOx-Rox-Box (SNRB); Condensing Heat Exchanger; SECTION 3 FGD TECHNOLOGY PROFILES Byproduct Processes; Lime Slurry Forced Oxidation; Limestone Slurry Forced Oxidation; Dilute Sulfuric Acid to Gypsum; Sodium/Lime Dual Alkali (Dilute Mode); Sodium/Limestone Dual Alkali with H2SO4 ConversionDowa Process - Aluminum Sulfate/Limestone Dual AlkaliKurabo Process - Ammonia/Lime Dual Alkali; Thioclear® Process - Magnesium Solution/Lime Dual Alkali; Kawasaki Process - Magnesium Slurry/Lime Dual Alkali; Ammonia Scrubbing - Once-Through; Ammonia Scrubbing with Oxidation; Walther Process with NOx Control - Ammonia Scrubbing with SCR; Electron Beam Irradiation; Ammonia Scrubbing with Acid Regeneration - Cominco Process; Magnesium Oxide Recovery Process; Direct Sulfuric Acid Conversion; Direct Sulfuric Acid Conversion with Integrated NOx Control; Cold Water Scrubbing with Thermal StrippingWellman Lord ProcessSolinox Process; Amine Solution with Thermal Regeneration; Activated Carbon with Thermal Regeneration; Limestone Clear Liquor Scrubbing; Kureha Process - Sodium Acetate/Limestone (or Lime) Dual Alkali; Sodium (Bi)Carbonate Sorption with Ammonia Regeneration; Pircon-Peck Process; Passamaquoddy Recovery Process; ISPRA Process; Electrochemical Membrane Separation; Sulfuric Acid Absorption with Peroxide Oxidation; Carbon Adsorption with Acid Regeneration; Zinc Oxide Process (Direct Slurry Sorption) with NOx Control; ELSORB Process; Ammonia Scrubbing with Thermal RegenerationTung Processlonics Process; SOXAL Process; Zinc Oxide Process (Sulfite Solution Absorption); Sorbtech Process; Citrate Process; SuIf-X Process; Direct Gas Phase Reduction; Comer Oxide Recovery Process; NOXSO ProcessAs the need to control process emissions has increased, so have the number of FGD treatment and control strategies. The effectiveness of these treatments vary greatly, depending the types and levels of the materials, as well as the size of the facility. Profiles in Flue Gas Desulfurization will help engineers and managers identify the technologies that best fit their plant and/or processes. It's a quick and easy reference to all "tail-end" SO2 control processes currently in commercial use or "on the brink," providing an effective "snapshot" of where this technology stands in industry today. ThFlue gasesDesulfurizationFlue gasesDesulfurization.628.5/32662.623Lunt Richard R.1944-944699Cunic John D.1946-944700American Institute of Chemical Engineers.Center for Waste Reduction Technologies.MiAaPQMiAaPQMiAaPQBOOK9911019201203321Profiles in flue gas desulfurization2132588UNINA