CS251219B1 - Flotation colector for oxidative tin ores flotation - Google Patents

Flotation colector for oxidative tin ores flotation Download PDF

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Publication number
CS251219B1
CS251219B1 CS826389A CS638982A CS251219B1 CS 251219 B1 CS251219 B1 CS 251219B1 CS 826389 A CS826389 A CS 826389A CS 638982 A CS638982 A CS 638982A CS 251219 B1 CS251219 B1 CS 251219B1
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CS
Czechoslovakia
Prior art keywords
flotation
acid
extract
biolipid
biolipid extract
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Application number
CS826389A
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English (en)
Other versions
CS638982A1 (en
Inventor
Martin Becker
Christian Neuber
Alexander Rosenbaum
Heinz Seidel
Beate Voigt
Karl Lehmann
Klaus Puechner
Ekkehard Mosch
Original Assignee
Martin Becker
Christian Neuber
Alexander Rosenbaum
Heinz Seidel
Beate Voigt
Karl Lehmann
Klaus Puechner
Ekkehard Mosch
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Application filed by Martin Becker, Christian Neuber, Alexander Rosenbaum, Heinz Seidel, Beate Voigt, Karl Lehmann, Klaus Puechner, Ekkehard Mosch filed Critical Martin Becker
Publication of CS638982A1 publication Critical patent/CS638982A1/cs
Publication of CS251219B1 publication Critical patent/CS251219B1/cs

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B03SEPARATION OF SOLID MATERIALS USING LIQUIDS OR USING PNEUMATIC TABLES OR JIGS; MAGNETIC OR ELECTROSTATIC SEPARATION OF SOLID MATERIALS FROM SOLID MATERIALS OR FLUIDS; SEPARATION BY HIGH-VOLTAGE ELECTRIC FIELDS
    • B03DFLOTATION; DIFFERENTIAL SEDIMENTATION
    • B03D1/00Flotation
    • B03D1/02Froth-flotation processes
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B03SEPARATION OF SOLID MATERIALS USING LIQUIDS OR USING PNEUMATIC TABLES OR JIGS; MAGNETIC OR ELECTROSTATIC SEPARATION OF SOLID MATERIALS FROM SOLID MATERIALS OR FLUIDS; SEPARATION BY HIGH-VOLTAGE ELECTRIC FIELDS
    • B03DFLOTATION; DIFFERENTIAL SEDIMENTATION
    • B03D1/00Flotation
    • B03D1/001Flotation agents
    • B03D1/004Organic compounds
    • B03D1/008Organic compounds containing oxygen
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B03SEPARATION OF SOLID MATERIALS USING LIQUIDS OR USING PNEUMATIC TABLES OR JIGS; MAGNETIC OR ELECTROSTATIC SEPARATION OF SOLID MATERIALS FROM SOLID MATERIALS OR FLUIDS; SEPARATION BY HIGH-VOLTAGE ELECTRIC FIELDS
    • B03DFLOTATION; DIFFERENTIAL SEDIMENTATION
    • B03D1/00Flotation
    • B03D1/001Flotation agents
    • B03D1/004Organic compounds
    • B03D1/014Organic compounds containing phosphorus
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B03SEPARATION OF SOLID MATERIALS USING LIQUIDS OR USING PNEUMATIC TABLES OR JIGS; MAGNETIC OR ELECTROSTATIC SEPARATION OF SOLID MATERIALS FROM SOLID MATERIALS OR FLUIDS; SEPARATION BY HIGH-VOLTAGE ELECTRIC FIELDS
    • B03DFLOTATION; DIFFERENTIAL SEDIMENTATION
    • B03D2201/00Specified effects produced by the flotation agents
    • B03D2201/02Collectors
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B03SEPARATION OF SOLID MATERIALS USING LIQUIDS OR USING PNEUMATIC TABLES OR JIGS; MAGNETIC OR ELECTROSTATIC SEPARATION OF SOLID MATERIALS FROM SOLID MATERIALS OR FLUIDS; SEPARATION BY HIGH-VOLTAGE ELECTRIC FIELDS
    • B03DFLOTATION; DIFFERENTIAL SEDIMENTATION
    • B03D2203/00Specified materials treated by the flotation agents; Specified applications
    • B03D2203/02Ores
    • B03D2203/04Non-sulfide ores

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  • Manufacture And Refinement Of Metals (AREA)
  • Crystals, And After-Treatments Of Crystals (AREA)

Description

1 METOfl ΦΠΟΤΑΙΜΗ OKHCJIEHHbíX OJIOBFHHMX ΡΥΡ 06naCTb npHMeHeWHH Η3θ6ρβΤβΗΗΛ Η3θδρβτ6ΗΗβ KacaeTca Μβτορβ ceneKTHBHoft φποτβμΗΗ oKHcneHHwx ojiobhhhmx pyn,b uacTHócTH, βερ,Ηωχ TpyflHooSoraTHMbnt, coaepwamnx Goabnioe KojranecTBo conyTCTByio'“Btwx OKHCJieHHbtX H CyjIb^HňHblX MHtíepaJIOB.
XapaKTepHCTHKa H3BecTHbix TexHiwecKHx pemeHnň H3BecTHbi MeToflbí φποτβμκΜ SeflHbix, TpyflHOoGoraTHMbix oKucneHHbix ojiobhhhmxpya, coctohdjhx H3 Sojibtnoro KOJinuecTBa MHHepanoB Kax KBapua, Tonaca, cnrofl, nojie-Boro innaTa, reMaTHTa, nupHTa, apceHonnpUTa, BHCMyroBoro Gjiecxa, xaojiHHa h ap.OSorameHne τβκηχ ojiobhhhmx pya cjiojkho η npeaBHBnneT BbicoKne TpeSoBaHHH κ ce-JieKTHBHOCTH MeTOflOB φΠΟΤβρΗΗ,
OftHH H3 T3KHX MeTOflOB 3aKJlKmaeTCfl B TOM, HTO MenKOH3MejIbHeHHyiO OJlOBHHHyiOpyny φποτκρνιοτ c aoGaBKoň Σ-φβΗΐύοτιυιεΗοφοοφοΗΟΒΟή khchotm b xanecTBe κοηπβκ~Topa, a οκτ3η«ηοπ3 b xanecTBe BcneHHBaTejiH (πθτθητ ΓβΡ Ν’ 31537), 3ΤΟΤ Μβτοη HM66T TOT ΗββΟΟΤΒΤΟΚ, HTO OH TpeGyeT OHeHb ΤΟΗΚΟΓΟ H3MejlbHeHHHpy/íbí, ητο6μπρη φιιστβΐίΗΗ noaynHTb aocTaTOHHo xoponme pe3yjibTaTbi. 3ra GoJibmaHTOHKocTb H3MejibweHHa Heo6xo«HMa noTOMy, hto BepxHHft npeaeji xpynnocTH 3epHa,emie xopomo noaaawMHňcH φποτβιχΗΗ 2~φβΗΗη3ΤΗπεΗοφοοφοΗθΒθή khcjiotoíí, cocTaBJíH-«τ ^0,063 mm.
Ho xax H3BecTHo, npoueccoM H3MeabqeHHH He BJiaaeioT b τβκοΜ coeepmeHCTBe, HTOCbl BO3MO3KHO GblJIO OrpaHHHHTb rpaHyjIOMeTpHHeCKHň COCTaB H3MenbqeHHOft pyflblnpeaéJioM eine φηοτ«^βΜο& xpyímocTu sepna. HocKOJibKy Gojiee xpynHbie tbpaKpHH, co-aepMamHecH b H3MejibneHHOM Marepnajie, HeaocTaTOHHo hjih BooGnxe He noaaawTCH φπο-ŤaííHH 2-φβΗΗΛ3ΤΗΠ6ΗθφθθφθΗΟΒθίί KHCJIOTOÍÍ, BO3HHKai0T aOBOJIbHO GoJIbHIHe ΠΟΤβρΗ U,e»~Hbjx κοΜΠΟΗβΗτοΒ, KpoMe τογο, τοκκοβ H3MejibHeHne TpeGyeT bmcokhx SaTpaT Ha an-napaTypy h 3HeprHK>. C opyroň ctopohm, KOJiJieKTopHbiií peareHT ctoht noporo; sto 251219 -2-: npHBOflHT K BblCOKoň CTOHMOCTH ÓJIpTaiJHH, B HaCŤHOCTH, 6e#HblX OJIOBHHHbIX pyfl, ΤβΜ i6ojiee, bto ueM ona nojiyqeHHH onpeaejieHHoro KOJinnecTBa KOHyeHTpaTa HeoOxoftHMO nepe-paBoTarb Gojibmoň ο6τ>βΜ pyabi h BMecTe c sthm TpeSyeTtín Gojibtnoe KOjiHHecTSO kojí-jieKTopworo peareHTa,
Ueilb Η3θ6ρβΤβΗΗΗ
Uenb Η3θ6ρβΤβΗΗΗ 3aKJI10HaeTCH B MaKCHManbHOM yMeHbmeHHH norepb HeHHbIX KOMItO“HeHTOB npH (jwioTapHH Tpy«Hoo6oraTHMbix ojiobhhhmx pyji, a τβκχε b cHHaeHHH aaTpaTHa annapaTypy h 3KcnnyaTapHOHHbix pacxoflOB.
CymHOCTb Η3θ6ρβΤεΗΗΗ npH IipHMeHeHHH 2-φβΗΚΠ3ΤΗΠβΗθφθθφθΗΟΒθϋ KHCJIOTM B ΚβΗβΟΤΒβ KOJIJieKTOpa HpHýnoTauHH oKHCJieHHbix ojiobhhhmx pyji BepxHHň npeflen KpynHocTH sepna, eme xopomonoflaatomeňca ójioTannH, cocTaBJíaeT é0,063 mm. B pesyiibTare 3Toro βο3Ηηκβ»τ ρ,ο-BOJIbHO GojIbHIHe ΠΟΤβρΗ UÉHHblX ΚΟΜΠΟΗβΗΤΟΒ, T3K KHK 6oJiee KpyiIHblft ΜβΤβρΗβΠ, CO“flepacaiUHňcfl b nynbrie, nocTynaiomeň Ha φποτειίΗΐο, HenocTaTOHHO hjih coBceM He nop&a-eTCB φΠΟΤβμΗΗ. IIosTOMy Μ3ο6ρβτβΗΗβ flojiMHo 6μπο pentHTb 3a#any - paapaGoTaTb Meroa φποτβιΐΗΗOKHCJieHHbíX OJIOBHHHbtX pyfl, nO3BonfH0tHHÍ1 HOBMCHTb ΠρβββΠ KpynHOCTH 3epHa, βΠ(β XO“porno nOHflataméňCH φηοΤβρΗΗ 2-φβΗΗη3ΤΗηβΗθφθθφθΗΟΒθή KHCJIOTOtt.
CornacHo n3o6peTeHmo 3Ta aanana pemaeTcH Tax, hto jtyis Φποτ3ιιηη oJiosocoxtep-xameíi cycneH3HH MHHepanoB κ nocneflMeft b xanecTBe κοηηβκτορΗΟΓΟ peareHTa no6afl-J1H1OT CMeCb H3 δΗΟίΙΗΠΗΑΗΟΓΟ 3KCTpaKTa Η 2“φβΗΗη3ΤΗη6ΗθφθθφθΗΟΒθί1 KHCJIOTM WIHCMecb H3 6κο.πηπη,ρηογο SKCTpaKTa, HaTpnesoro Mbma Θηοπηπη,πηογο atccrpaicTa h ,2“φθΗΗη3ΤΗηβΗθφοεφθΗΟΒθϋ KHCJlOTbl WIH CMecb H3 ΚΟΗΗβΗΤρΗρΟΒβΗΗΜΧ φρβΚρπδ 0HO“•πηπηαηογο 3KCTpaKTa c bmcokhm coaepacaHHeM φοεφβΤΗΛβ hjih cboSobhmx khphmx khc-JJOT Η 2-φεΗΗίΙ3ΤΗΠεΗθφθ€φθΗΟΒθή KHCJlOTbl. fljia cMecH peareHTOB πρημθηηιοτ 6HonHnHjiHbiH skctpskt, nojiynaeMbiň κβκ ϊιο6οηημΑnpoflyKT npH MHKpoGHojiorHHecKoň φερΜβΗτβιρίΗ yrneBOflopoflOB προκμμη hjih δβκτβρΗ-*HMH HOCJie 3KCTP3KUHH 6HOMaCCbl paCTBOpHTeJIHMH C HH3KO#t TOHKOň KHneHHH. OCHOB“HHH KOMnOHeHTa GHOJIHIIHflHOrO 3KCTpaKTa “ 3TO JlHHHflM MHKpo6H0J10rHHeCK0ro npOHC-xojKfleHHHj coflepjKanjMe κηρημθ khcjiotm (φοοφβτΗβΜ, rnHuepHjsbO, a TaKwe cso6onHbieMHpHbie KHCJlOTbl Η θΗΟΓΘΗΗΜβ ΚΟΜΠΟΗΘΗΤΜ, KOTOpbte MOTyT HaXOJIHTbCH B paCTBOpeHHOř^BH^e b yrneBonopoHHoft φρεκιΐΗΗ, HanpHMep, c npenenoM KHneHHH 510-650 K. flanee HBjíneTca xapaKTepHbíM, hto 6ηοπηπηρηη$ axcTpaKT η 2-φεΗΗΠ3ΤΗπεΗοφοεφο-HOByro KHcjioTy cMemHBaroT b oTHomeHHH 1:0,2 no’ 1:1,5, npepnoHTHTejibHo 1:1. 3th'ABa KOMnoHeHTa - Βηοπμπηρημη sKCTpaKT h HaTpneBoe mmíio 6ηοπηπη«ηογο sKcrpaKTa1 cMeniHBaioT b oTHonieHHH 1:0,2 «o 1:1,5, npeflnoHTHTentHO 1:1c 2“φβΗΗΠ3ΤΗΠβΗθφο<:-φσΗΟΒΟή KHCJlOTofi, HpHHeM GHOJIHllHflHMft 3KCTpaKT COflepMHT 80%, IipeflnOHTHTeJIbHO70% ΗΒΤρΗβΒΟΓΟ MbtJia.
KpoMe toto, H3o6peTeHHe orjiMHaeTca τβΜ, mto CMecb peareHTOB npHMeHBeTCH bBH«e BOflHOň 3MyjtbCHH, B KOTOpOřt ΗβΤρΗβΒΟΘ MblHO θΗΟΗΗΠΗΑΗΟΓΟ SKCTpaKTa cjiy»HTKaK aMyjibrarop hjih b KanecTse aMyjibraTopa aonojiHHTejibHo πρημθηβιοτ ο6μηημΒ pe-areHT.
Meroa eoraacHo H3o6peTeHmo npHro«eH fljt« φποτβΗΗΗ oKHeneHHbix, rpy/piooCora-THMMX OJJOBBHHbtX pyfl. OH ΗΜΘβΤ TO IlpeHMymeCTBO, HTO H3 OHeHb TOHKOMSMe.ribtJeHHOft 251219 -3 - OPOBHHHoň py/XM B09M0JKH0 H3BJieKJVTh TaKSte 6θΡββ KpynHy» φρβΚΡΗΙΟ, HTO nOBbímaeT H3“ΒΡβΗβΗΗβ peHHbIX ΚΟΜΠΟΗβΗΤΟΒ. ΪΙρΗΜβΗβΗΗβ CMeCH peareHTOB TaKWe ΠΟ3ΒΟΡΗβΤ CHH3HTfeypePbHbtíl pacxop peareHTOB Ha tohhy nepepaGaTbiBaeMoň pypw, CHraceHHe pacxopa φοο-φοποΒοή KHcnoTbi 6naronpHHTCTByeT TaKSte oxpane npHpopbi. noBbnnaeTCH Tam οφ- : φβκτΗΒΗΟοτι» npopecca H3MepbMeHHH, τβκ khk b cbb3H c B03MoxHocTbio Φροτηρηη (SoneteKpynHoň φρβΚιχΗΗ noBbnnaeTCH HHStHHft npepep HeoGxopHMoň tohkocth H3MenbMeHHH.
Hrnce n3o6peTeHne 6opee πορροβΗο noBCHaeTCH Ha rtpHMepe HcnopHeHHH BapnaHT3. IIpHMep HcnojiHeHHH sapnaBTa
HeoOxoflHMwň pfla κορρβκτορκοϋ CMecH 6ηορηπηρημ$ 3κοτρβκτ nopynajor κβκ no-GoHHbift npopyKT ot 3KCTpaKpHOHHoň ohhctkh ppostsceň (πιτβΜ - Lodderomyces elongie-'poruš), BMpaiqeHHbix na fíHcrnjuiare ΗβφτΗ c npepepoM κηπθηηλ 510-650 K.
OnoBHHHy» pypy, copepscamy» 0,3% opoea h b KanecTBe ochobhmx MHHepapbHHXKOMnoHeHTOB KBapp, Tonac, noneBbie nmaTbi, γθμβτητ h eniopbi, H3MepbnaioT po icpyn-hocth HHxe 0,100 mm H itepeBopHT b BopHyio cycneH3Hio προτηοοτβιο 1,7 κγ/ρ, k ko-τοροϋ poCaBpjnoT 250 r/τ Na4SiFe pna ohhctkh noBepxHocTH onoBHHHoň pypw. IlocnenacTHMHoň CMteHbj Bopbi eopepxameecH b nypbne οροβο φροτΗρν»τ c noMombjo 200 r/τΚΟΡΡβΚΤΟρΗοϋ CMeCH, COCTOHmeftCB H3 50% 2“φβΗΗΡ3ΤΗΠβΗθφθθφθΗΟΒθΡ KHCPOTbl H 50%6ΗΟΡΗΠΗΡΗΟΓΟ 3KCTpaXT3, B npHCyTCTBHH 100 r/τ OKTaHpHOPa B ΚβΜβΟΤΒβ BCneHHBa-TepH. Uenecoo6pa3Ho ncnopbaoBaTb KonneKTopnyto CMecb b BHpe BopHoň SMypbCHH.3MynbrHpoBaHnio κορρεκτορΗοή CMecH cnocoCcTsyeT nacTHHHoe πρπΜβΗβΗΗβ 6ηορηπηρ~ηογο 3KCTpaKŤa b BHpe HaTpHeBoró Mbina. flon« ομηρθηηογο npopyKTa coCTaBnueT70%, Haste npHBepeHbt pe3ypbTaTbi HecpepoBaHHň c πρπΜβΗβΗΗβΜ κορρβκτορΗοϋ CMecHC pa3HblM COpepataHHeM 6ΗΟΡΗΠΗΡΗΟΓΟ 3KCTpaKT8 Η 2“φβΗΗΡ3ΤΗΡβΗθφθθφθΗΟΒθΡ KHCPOTbl,’ 3aMeTHoe noBbiraeHHe cTeneHH H3BPeneHH« opoBa conpoBOJKpaeTca HH3Koň CTeneHbiooGorameHHB b ochobhoS φποτβρΗΗ. B nocpepyKmiHX CTyneHHX poohhctkh sto MoaceTGbřTb KOMPeHCHpoBaHO, B paPbHefttDHX HCCPepOBaHHPX BblBBHPOCb, hto no Mepe pOCTa COpepStaHHB 6hoph-πηρηογο 3KCTpaKTa b KoppeKTopHoft CMecH HaGpiopaeTCH nerKoe CHHSteHHe CTeneHHoOorameHHH h Η3ΒΡβΗβΗΗΗ opoea.
HanGopee HH3KHe peaypbTaTbi nonýnaioTCB b cnynae πρπΜβΗβΗΗΒ 6ηορηπηρηογο skct-ρβκτα, κ KoropoMy Me poGaBPeHa Σ-φβΗΗΠΒΤΗΡβΗοφοοφοΗΟΒβΗ KHcnoTa, , ΠρΗ πρΗΜέΗβΗΗΗ CMecH, copepwameň HanpHMep 50% 6ηοπηπηρηογο 3KCTpaKTa, φροτΗ·4·pyeMaa KpynHocTb 3epHa KaccHTepHTa MosceT 6μτβ noBbtaieHa, BHOPHnHpHbift SKCTpaKT B CMeCH peareHTOB MOSCHO ΤβΚΚβ 3βΜβΗΗΤΒ φρΒΚΡΗΗΜΗ 3KCT-paKTa, b KoTopbix CKOHneHTpHpoaaHbí hph φοοφβτΗρω hph CBOČopHbie stHpHbie khcpotm.
Bo3momho TaKsce κ MHHepanbHoň cycneH3HH poGaBHTb peareHTHyio CMecb Θηορηπηρηο-ro aKCTpaKTa c ppyiHMH κοππβκτορβΜΗ pna KaccHTepHTa κβκ apcoHOByro KHcnoTy hphCHopHnMpHbifí 3KCTpaKT BMecTe co BcneHHBaiomHMH h perypHpyiomHMH peareHTaMH. ΠρβρΜβΤ Η3θ6ρβΤβΗΗΗ 1 , MeTOp φΠΟΤβΡΗΗ OKHCPeHHblX OPOBHHHMX pyp, no KoropoMy TOHKOH3MePbPeHHytOOPóBBHHyio pypy nepesopar b MHHepapbHyio cycrteH3Hio, φποτΗργεΜγιο b npncyTCTBHHKOPPeKTopnux peareHTOB, perypHpywmHX peareHTOB h BcneHHBaTeneň, πρηηθμ b Ka-necTBe KopPeKTopa poGaBPBioT 2-φeHHΠ^THπeHoφocφoHoByκ) KHcnoTy, oTPHMato- 251219 - 4 - 'm H ň c Η τ e μ, ητο κ onoBocoflepacameň.MHHepanbHoň eycneH3Hn b KanécTBe κοηπεκί-Topa po6aBJiHK)T CMecb peareHTOB H3 SHOJinnHpHoro BKCTpaKTa η 2-φεΗΗΠ3ΤΗπεΗοφοοφο-“ηοβοΑ khcjiotm hjih CMecb H3 6ηοηηπηρηογο 3KCTpaKTa, HaTpneBoro Mbina 6ηοπηπηρηογ03KCTpaKTa U 2~φεΗΗΤΙ3ΤΗηεΗθφθθφθΗΟΒθή KHCJIOTbl HJIH CMecb H3 KOHUeHTpHpOBaHHbIXφρθΚΡΗΗ βΗΟΗΗΠΗρΗΟΓΟ 3KCTpaKT3 C BblCOKHM COflepwaHHeM φθθφ3ΤΗΡΟΒ HJIH CBOÓOpHbIXHCHpHbIX KHCJIOT Η 2-φβΗΗΛΙ3ΤΗΗ6ΗθφθύφθΗθΒΟΗ KHCJIOTbl. 2. Μετορ no nyHKTy 1,oTJiHnaioinHňcH τ e m, hto pjih npHroTOBjíeHHHCMeCH peareHTOB ΠρΗΜβΗΗΙΟΤ €>ΗΟΠΗΠΗρΗΜΗ 3KCTP3KT, nOJiyqaeMblft npH MHKpOÓHOJIOrHHeC-*koh óepMeHTapHH yrnesopopopoB ppoaoKaMH hjih SaKTepHHMH nocne SKCTpaKpHH 6HOMaccb(paCTBOpHTenHMH C HH3KOH TOHKOÍ1 ΚΗΠβΗΗΗ, 3. Μετορ no nyHKTaM 1h2, oTJiHnaiomHftcH τ e Μ, ητο 6ηοηηπηρημ&amp;3KCTpaKT η 2-φθΗΗτΐ3ΤΗηεΗοφοοφθΗθΒνκ) KHCJioTy cMeuiHBaioT b οτηοιηθηκη 1:0,2 po1:1,5, npepnoMTHTejibHO 1:1, 4. Μετορ no nyHKTaM 1 h2, oTjiHqaromHňcH τβΜ, ητο 6ηοιιηπηρημΑ3Kc,TpaKT h HaTpHeeoe Mbino 6ηοιιηπηρηογο 3KGTpaKTa CMeranBaioT c 2-φεΗΗΠ3ΤΗηεΗο-φοεφοΗΟΒοίί KHcnoToň b OTHoraeHHH 1:0,2 po 1:1,5, npepnoMTHTenbHo 1:1. 5. MeTop no nyHKTy 4, οτπηηηιοπιηηοη τβΜ, ητο copepataHHe ΗβτρΗ-eBoro Mbina b 6ηοιιηπηρηομ aKCTpaKTe cocTaBJíaeT po 80%, πρερποητΗτερι,ΗΟ 70%. 6. Μβτορ no nyHKTy 1, oTjiHqaiomHňcH τβΜ, ητο KonneKTopHyio CMecbηρΗΜβΗΗΙΟΤ B BHpe BOPHOH 3MyjIbCHH, a HaTpHeBOe MbIJIO 6ΗΟΠΗΠΗΡΗΟΓΟ SKCTpaKTS CJiy-mht KaK sMynbraTop. 7. Μετορ no nyHKTy 1, oTJiHnaiomHňcH τβΜ, ητο p KaqecTBe 3Mynbra-Topa πρΗΜβΗΗΐοτ ponojiHHTePbHo o6bWHbiň peareHT,
BblBOPbl Μετορ φηοτβρΗΗ oKHCJieHHbix ojroBHHHbix pyp Η3θ6ρβτβΗΗε KacaeTCH MeTopa ceneKTHBHoíi φηοτβρΗΗ oKHcneHHbix ojiobhhhmx pyp,b nacTHocTH, CepHbix TpypHooSoraTHMbix, copepMcaqHx Sonbinoe KOjiHnecTBo conyřcT-Bywqnx οκηοτιθηημχ η βνηΒφκρΗΒΐχ MHHepajioB.
Uent Η3ο6ρετβΗΗΗ 3aKJiioqaeTCH b MaKCHMaJibHOM yMeHhineHHH noTepb peHHbix κομπο-ΗβΗτοΒ npH φποτβρΗΗ TpypHoočoraTHMbix onoBHHHbrx pyp, a τβκ»ε b CHHsceHHH 3βτρβτna poporne KonneKTopHbie peareHTbi, B ocHOBe Η3θ6ρετεΗΗΗ jie»HT 3apana - paspaĎoTaTb Μετορ φηοτβρΗΗ oKHcneHHbixojioBHHHbix pyp, no3Bojihioiuhh noBbicHTb npepen KpynHocTH 3epHa, enje xopomo noppaw-meňCH φΐΙΟΤΗΗ,ΗΗ 2-φεΗΗΠ3ΤΗΠεΗθφθθφθΗΟΒΟΗ KHCJ1OTOH.
3τβ 3apapa pemaeTCH TaK, ητο κ cycneH3HH MHHepanoBro peareHTa poPaBnnioT CMecb H3 6ηοηηπηρηογο 3KCTpaKTaHOBOH KHCJIOTbl, 3τΗ ΚΟΜΠΟΗβΗΤΗ CMeniHBaiOTCH B OTHOmeHHH b KanecTBe κοηπεκτορΗο-h 2-φεΗΗη3ΤκπεΗοφοεΦο-1:0,2 po 1:1,5. ΠρΗ3Η3Ηο Η3ο6ρετεΗΗβΜ no pe3yjibTaTaM 3κεπερτπ3Μ, ocymeeTBjíeHHoň BepOMCTBOMno penaM Η3οβρετεΗΗΗ n ππτεΗτοΒ ΓΠΡ. 251219 - 5 -
Ko.nneKTopHa« cMect> (o6man ;io6aBKa 200 γ/τ) 2-φβΗΗΠ“ STtuieHo- φθθφθΗΟ- Baa K-ra, Z 6ho.HH“ nnnHbift □KCTpaKT i----------- icxoffHoe coflepaca- ΗΗβ ono— ea b py-íXe a Z Sn coflepacaHHe κοΗΐχβΗτρβτβ CTeneHb I H3BHG“oOorame- neHne Z Sn c Z F Z Fe hhh a:c OHOBa, Z 100 0 0,442 3,7 5,05 11,55 8,37 76,3 75 25 0,513 3,05 5,45 9,85 5,95 78,1 50 50 0,563 3,6 5,6 9,6 6,37 80,2
. HaBneneHHe onosa no Φρηκηηημ, Z 0-40 MK .40-63 MK 63-100 MK 100-160 MK + 160 MK Cpennee MK 100Z 2“φθΗΗΗ3ΤΗ“ ΗβΗθφθθφθΗΟΒθϋ KHCJIOTM 95,1 83,3 50,5 10,5 5,3 76,9 CMect, βΗΟΠΗΠΗΑ“Horo BKCTpaKTa h2“(J)eHHn3THrteHo-φΟΟφΟΗΟΒΟίί KHC“HOTbl B OTHOffie-hhh 50:50 94,8 84,0 . 51,7 17,8 8,6 80,6 251219

Claims (6)

- 6 - PfiBDMfiT VYNÁLEZU
1. Flotační sběrač pro flotaci oxidických oínovýoh rud nazákladě 2-fenyletylenfosfonové kyseliny, vyznačující se tím,že je tvořen směsi biolipidového extraktu a 2-fenyletylenfos-fonové kyseliny nebo směsí 2-fenyletylenfosfonové kyseliny,biolípíďového extraktu a sodného mýdla biolipidového extraktunebo směsí 2-fenyletylefosfonové kyseliny a koncentrovanýchfrakcí biolipidového extraktu s vysokým obsahem fosfatidů nebomastných kyselin, přičemž biolipidový extrakr a 2-fenyletylen-fosfonová kyselina jsou smíchány v poměru 1 : 0,2 až 1 $ 1,5 a biolipidový extrakt se skládá s fosfatidů, glyceridů, vol-ných mastných kyselin a biogenních komponentů, které jsou roz-puštěny v uhlovodíkové frakci·
2. Flotační sběrač podle bodu 1, vyznačující se tím, že bloll-pidový extrakt sestává z 15 % až 40 % fosfatidů, 10 % až % glyceridů a volných mastných kyselic» 30 % až 60 % uhlovodíků popřípadě jiných biogenních komponentů.
3· Flotační sběrač podle bodů 1 a 2, vyznačující se tím, žefosfatidy obohacený biolipidový extrakt sestává ze40 % až 70 % fosfatidů, 10 % až 50 % glyceridů a volných mastných kyselin, 10 % až 30 % uhlovíků popřípadě jiných biogenních komponentů·
4· Flotační sběrač podle bodů 1 a 2, vyznačující se tím, ževolnými mastnými kyselinami obohacený biolipidový extraktsestává z 20 % až 80 % glyceridů a volných mastných kyselin, 2 % až 10 % fosfatidů, 10 % až 50 % uhlovodíků popřípadě jiných biogenních komponentů* 251219 I 251 219
5. Flotační sběrač podle bodu 1» vyznačující se tím, žepodíl sodného mýdla v biolipidovém extraktu je 80 %, výhod-ně ?0 %.
6. Flotačni sběrač podle bodu 1, vyznačující ae tím, žeobsahuje ještě emulgátor. UŽgowdský výrobne-polygrafický podnik, Proektnajá 4, U^gorodIř 1824, Cena 2,40 Kcs
CS826389A 1981-11-04 1982-09-02 Flotation colector for oxidative tin ores flotation CS251219B1 (en)

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AU568078B2 (en) * 1982-06-16 1987-12-17 Albright & Wilson Limited Ore flotation with phosphonic acids
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CN106583055A (zh) * 2016-11-23 2017-04-26 四川省地质矿产勘查开发局成都综合岩矿测试中心 低钛型钒钛磁铁矿浮选钛捕收剂
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