CS258401B1 - Method of sludge's fermentative stabilization - Google Patents

Method of sludge's fermentative stabilization Download PDF

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Publication number
CS258401B1
CS258401B1 CS876980A CS876980A CS258401B1 CS 258401 B1 CS258401 B1 CS 258401B1 CS 876980 A CS876980 A CS 876980A CS 876980 A CS876980 A CS 876980A CS 258401 B1 CS258401 B1 CS 258401B1
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Czechoslovakia
Prior art keywords
fermentative
sludge
stabilization
amount
mixture
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CS876980A
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Czech (cs)
Inventor
Klaus Tromller
Werner Riedel
Bringfriede Theis
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Klaus Tromller
Werner Riedel
Bringfriede Theis
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Publication of CS258401B1 publication Critical patent/CS258401B1/en

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    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F3/00Biological treatment of water, waste water, or sewage
    • C02F3/34Biological treatment of water, waste water, or sewage characterised by the microorganisms used
    • C02F3/342Biological treatment of water, waste water, or sewage characterised by the microorganisms used characterised by the enzymes used

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  • Life Sciences & Earth Sciences (AREA)
  • Microbiology (AREA)
  • Biodiversity & Conservation Biology (AREA)
  • Hydrology & Water Resources (AREA)
  • Engineering & Computer Science (AREA)
  • Environmental & Geological Engineering (AREA)
  • Water Supply & Treatment (AREA)
  • Chemical & Material Sciences (AREA)
  • Organic Chemistry (AREA)
  • Treatment Of Sludge (AREA)
  • Micro-Organisms Or Cultivation Processes Thereof (AREA)
  • Enzymes And Modification Thereof (AREA)
  • Preparation Of Compounds By Using Micro-Organisms (AREA)
  • Paper (AREA)

Description

IAND

Cnoco6 φβρΜβΗΤβΤΗΒΗΟή CTa6HJlH3aiíHH HJia OSnacTb npHMeneHna H3o6peTeHna H3o6peTeHne othochtcíi κ cnocoSy <J>epMeHTaTHBHoří cTa6miH3aiíHH mra fCnoco6 φβρΜβΗΤβΤΗΒΗΟή CTa6HJlH3aiíHH HJia OSnacTb npHMeneHna H3o6peTeHna H3o6peTeHne othochtcíi κ cnocoSy <J> epMeHTaTHBHoří cTa6miH3aiíHH mra f

XapaxTepHCTHKa H3BecTHbix TexwmecKHx peuieHHň flnfl o6pa6oTKH opraHJHuecKHx hjiob H3BecTHbi aapoGHbie h aHaspoÓHbie cnocoCu. ΠρΗaspoOHbix cnoco6ax o6pa6aTbinaeMbiň MaTepnaji aapupyioT, uto6m oCecnemiTb mhkpo-ĎHonorHwecKHe npoueccbi flecTpyKUHH, npoTexaiomHe τοπι>κο b npucyrcTBHH khcjio-pofla.XapaxTepHCTHKa H3BecTHbix TexwmecKHx peuieHH flnfl o6pa6oTKH opraHJHuecKHx hjiob H3BecTHbi aapoGHbie h aHaspoÓHbie cnocoCu. ΠρΗaspoOHbix cnoco6ax o6pa6aTbinaeMbiň MaTepnaji aapupyioT, utoecmemiTb mhkpo-dHonorHwecKHe npoueccbi flecTpyKUHH, npoTexaiomHe τοπι> κο b npucyrcTBHH khcjio-pofla.

BpeMH BbwepWKH HcxoflHoro MaTepnana cocTaBjíaeT ot 2,5 flo 7 cyTOK, AHa3po6Hbie cnocoóbi. (niHemie) Tpe6yioT 3HaMHTejibHO Sonbinero ΒρβΜβΗΗ. Ohh προ-HCXOflHT B OTCyTCTBHH KHGJlOpOfla. ΒρβΜΗ BblHeDJKKK COCTaBJIHeT 30“70 flHeň. flanee npejyiaraeTCH φβρΜβΗτβτΗΒΗΜβ cnocoe CTaSráiHaanHH Hjia (DD-WP 140 244). CTa6mni3aitHfl npoHcxoflHT πρκ TeMneparypax ot 25° ρ,ο 40°C, npH 3Ha*ieHHn pH « = 6-9 h lípu ΒρβΜβΗΗ οδρβδοτκπ ot 5 po 10 nacoB. Ilponeccbi flecTpyKUHH κβτβπκ-3HpyiCTCH φβρΜβΗΤβΜΗ, MTO CHJIbHO yCKOpaeT HX ΠρΟΤβΚεΗΗβ. ΒρβΜΗ BhlflepJKKH CO“xpamaeTcfl πρκ opxmaKOBoň CTeneHH flecTpyKUHH flo ηθοκοπβκηχ wacoB, H3BecTno, mto HyscTBHTejibHbie κ THJKejibíM MeTannaM φερΜβΗτω ywe πρκ hx Bbiflene-HHH H3 MHKpOOpraHH3MOB MOJKHO 3ail(HUiaTb BBefleHHeM ΚΟΜΠίΙβΚΟΟθ6ρ830ΒΒΤβΠβή.(Ruttloff et.al., Industríelle Enzyme, Leípzig 1978, S, 184). nonyqeHHbie hs Bac.subtilis φερΜβΗΤΗ npoTea3bi hbjihkjtch HyecTBHTenbHbíMH κ th-xenbíM MeTannaM (Kalunjanz, K.A., Abhandlung der AbW der DDR (1975) 1N, S. 187). ‘BpeMH BbwepWKH HcxoflHoro MaTepnana cocTaBjiaeT ot 2.5 flo 7 cyTOK, AHa3po6Hbie cnocoObi. (niHemie) Tpe6yioT 3HaMHTejibHO Sonbinero ΒρβΜβΗΗ. Ohh προ-HCXOflHT B OTCyTCTBHH KHGJ10OOfla. ΒρβΜΗ BblHeDJKKK COCTaBJIHeT 30 “70 flHen. flanee npejyiaraeTCH φβρΜβΗτβτΗΒΗΜβ cnocoe CTaSraHaanHH Hjia (DD-WP 140 244). CTa6mni3aitHfl npoHcxoflHT πρκ TeMneparypax ot 25 ° ρ, ο 40 ° C, npH 3Ha * ieHHn pH «= 6-9 h of lime ΒρβΜβΗΗ οδρβδοτκπ ot 5 to 10 nacoB. Ilponeccbi flecTpyKUHH κβτβπκ-3HpyiCTCH φβρΜβΗΤβΜΗ, MTO CHJIbHO yCKOpaeT HX ΠρΟΤβΚεΗΗβ. ΒρβΜΗ BhlflepJKKH CO "xpamaeTcfl πρκ opxmaKOBoň CTeneHH flecTpyKUHH flo ηθοκοπβκηχ wacoB, H3BecTno MTO HyscTBHTejibHbie κ THJKejibíM MeTannaM φερΜβΗτω YWE πρκ Bbiflene HX-HHH H3 MHKpOOpraHH3MOB MOJKHO 3ail (HUiaTb BBefleHHeM ΚΟΜΠίΙβΚΟΟθ6ρ830ΒΒΤβΠβή. (Ruttloff et.al., Industrielle Enzyme, Leipzig 1978, , NonyqeHHbie hs Bac.subtilis φερΜβΗΤΗ npoTea3bi hbjihkjtch HyecTBHTenbHbiMH κ th-xenbM MeTannaM (Kalunjanz, KA, Abhandlung der AbDR der DDR (1975) 1N, S. 187). '

Ho aaniHTa MeTannnpoTea3OB KOMnneKCOoSpaaoBaTenHMH HeBO3MO»Ha, Tax xax kom-IUieKCOO6pa3OBaTenb TOpMO3HT φερΜβΗΤΒΤΗΒΒ^ΠΟ aKTHBHOCTb 3THX φβρΜβΗΤΟΒ (Rut-tloff et. al., a.a.o. S. 315), 3amnTa nonynaeMoň, κροΜ6 toto, cepHHOBoň προTea3bi Subtalisin (Priest, F.C., Bacteriol, Rev.41 (1977) s, 711) HBnneTCH 258401 2 H3JiHiuHeň, tsk xax 3Ta npoTea3a ne «bjihctch aKTHBHoň πρη flaHHbix 3HaneHHHX pHπρΗ φβρΜβΗΤaTHBHoň cTa6HjiH3anHH rna. (Ruttloff et.al,, a.a.o. Seite 313,Ho aaniHTa MeTannnpoTea3OB KOMnneKCOoSpaaoBaTenHMH HeBO3MO »Ha Tax complex-XAX IUieKCOO6pa3OBaTenb TOpMO3HT φερΜβΗΤΒΤΗΒΒ ^ ΠΟ aKTHBHOCTb 3THX φβρΜβΗΤΟΒ (Rut-tloff et. Al., P. 315 AAO) 3amnTa nonynaeMoň, κροΜ6 this, cepHHOBoň προTea3bi Subtalisin (Priest, FC Bacteriol , Rev.41 (1977) s, 711) HBnneTCH 258401 2 H3JiHiuHen, tsk xax 3Ta npoTea3a ne «bhihctch aKTHBHoNrg flaHHbix 3HaneHHX pHπρΗ φβρΜβΗΤaTHBHoň cTa6HjiH3anHH rna. (Ruttloff et al., A.a.o. Seite 313,

Tab. 5. 9a).Tab. 5. 9a).

KpoMe Toro, KOMruieKcoo6pa3OBaTenb He cMor 6ω obecneuHTb cooTBeTCTBytomyio 3a-iHHTy ot THxejibix ΜεταηποΒ, noTOMy mto coflepxameeca b KOMMyHanbHO OTCToeHHbixnjiax xcejie3o (Popel, F., Thorn, W. Gewasserschutz-Wasser-Abwasser 6 (1972),CBHSMBano 6bi floGaBJíaeMbift KOMiineKcoo6pa3OBaTejib na-aa Sojibniero cpeflCTBa.(Horst, K. Aquaríen-Terrarien 15 (1968) 9, S. 309).KpoMe Toro KOMruieKcoo6pa3OBaTenb He chloro 6ω obecneuHTb cooTBeTCTBytomyio 3a-ol iHHTy THxejibix ΜεταηποΒ, noTOMy MTO coflepxameeca b KOMMyHanbHO OTCToeHHbixnjiax xcejie3o (Ash, F., Thorn, W. Gewasserschutz Wasser-Abwasser-6 (1972), CBHSMBano 6bi floGaBJíaeMbift KOMiineKcoo6pa3OBaTejib on-aa Sojibniero cepefCTBa. (Horst, K. Aquarien-Terrarien 15 (1968) 9, p. 309).

Uejib H3c»6peTeHHHUejib H3c »6peTeHHH

UeJib H3o6peTeHHH coctoht b Haxox,neHHH cnoco6a, κοτορκή no cpaBHeHHio c Tpa-flHIJHOHHblMH CnOCOSaMH OTJIHMaeTCB 3HaMHTejIbHO CojIblUeft npOH3BOflHTejIbHOCTbK> Hno cpaBHeHHio c (JjepMenTaTHBHbíM enocoSoM ρβ3κο noHnxaeT 3aTpaTy shuhmob, β,πηflOCTHJKeHHH noBblUieHHOrO BbIXOfla HJIOB H3 OTCTOfÍHHKOB H BOflOnpOBOflHbIX CTaHflHň.H3jioaceHHe cyiRHQCTH H3o6peTenHH 3a#aneň Η3θ6ρετβΗΗΗ HBJíneTCH pa3pa6oTKa cnocoSa ajih φερΜθΗΤβΤΗΒΗοή CTaÓHJiH-3aunn hji a, c npHMeHenHeM nonynaeMoň na Bacillus subtilis CMecH φερΜβΗΤΟΒπρκ CHJibHOM coKpaiueHHH pacxofla φβρΜβΗΤΟΒ. Coraacno Η3θ6ρετβΗΗΐο saflana pema-eTCH τβΜ, ητο πρκ φερΜβΗΤ3ΤΗΒΗθΗ cTaóHJiH3aflHH HJia c npHMeHeHHeM hhtojihth- *qecxoň cMecu φβρΜβκτοΒ, nojiyueHHoň H3 Bacillus subtilis, KOTopyio flo6aBJiHK>Tκ cyCcTpaTy b KojinnecTBe ot 3-10 μγ/ji, a HHKyĎaflHio προβοαητ πρκ TOMnepaTy-pax 10-55 C h pH = 5-8 b τεηεΗΗε 0,5-15 uacoB, npHneM cybcTpaT nocneflOBa-rrejibHo pa3fleji«eTCH na hji h «HflKyio φa3y, κ CMecn flo6aBJiHKT KOMnneKCOo6pa3o-BaTejin b KojnmecTBe 35-70% KOjinnecTBa shuhmob. B xanecTBe KOMnnexcoo6pa3O-BaTejiH npeHMymecTBeuHo πρΗΜεκπιοτ flHHaTpHfíflHrHflpóreH-aTHjieHflHaMHHTeTpaafle-TaT. B 3T0M cjiynae CJieflOBano 6bi o>KHflaTb flonojiHHTejibHoro pacxofla φερΜβΗΤΟΒ, HoHeojKHflanno oxa3anocb, ητο πρκ H83HamiTejibH0M floSaBJíeHHH KOMnnexcoo6pa3OBa-Tejia pacxofl φερπεΗτοΒ 3HaHHTeJibHo chh3Hjich. TaxHM o6pa3OM npoHBJíHeTca HOBbiftHe OJKHfl aHHbďl 3φφε KT . ΦερΜβητΜ h KOMnneKcoo6pa3OBaTejiH πρΗΜβΗΗΚ,τ npeuMymecTBeHHo flnn cMeceň unos,COCTOHIRHX H3 ΠβρΒΗΗΙΙΟΓΟ Η εΚΤΗΒΗΟΓΟ HJI a.UeJib H3o6peTeHHH coctoht b Haxox, neHHH cnoco6a, but κοτορκή cpaBHeHHio c TPA flHIJHOHHblMH CnOCOSaMH OTJIHMaeTCB 3HaMHTejIbHO CojIblUeft npOH3BOflHTejIbHOCTbK> Hno cpaBHeHHio c (JjepMenTaTHBHbíM enocoSoM ρβ3κο noHnxaeT 3aTpaTy shuhmob, β, πηflOCTHJKeHHH noBblUieHHOrO BbIXOfla HJIOB H3 OTCTOfÍHHKOB H BOflOnpOBOflHbIX CTaHflHň.H3jioaceHHe cyiRHQCTH H3o6peTenHH 3a # anena Η3θ6ρετβΗΗΗ HBJíneTCH pa3pa6oTKa cnocoSa ajih φερΜθΗΤβΤΗΒΗοή CTaÓHJiH-3aunn hji and c npHMeHenHeM nonynaeMoň on Bacillus subtilis CMecH φερΜβΗΤΟΒπρκ CHJibHOM coKpaiueHHH pacxofla φβρΜβΗΤΟΒ. Coraacno Η3θ6ρετβΗΗΐο saflana PEMA etch τβΜ, ητο πρκ φερΜβΗΤ3ΤΗΒΗθΗ cTaóHJiH3aflHH HJia c npHMeHeHHeM hhtojihth- * qecxoň φβρΜβκτοΒ CMEC, H3 nojiyueHHoň Bacillus subtilis, KOTopyio flo6aBJiHK> Tκ cyCTpaTy b KojinnecTBe ot 3-10 μγ / ji, and HHKyĎaflHio προβοαητ πρκ TOMnepaTy-pax 10-55 C h pH = 5-8 b τεηεΗΗε 0.5-15 u acoB, npHneM cybcTpaT nocneflOBa-rrejibHo pa3fleji «eTCH on hji h« HflKyio φa3y, κ CMecn flo6aBJiHKT KOMnneKCOo6pa3o-BaTejin b KojnmecTBe 35-70% KOjinnecTBa shuhmob. B xanecTBe KOMnnexcoo6pa3O-BaTejiH npeHMymecTBeuHo πρΗΜεκπιοτ flHHaTpHfíflHrHflporeH-aHjhHflHaMHHTeTpaafle-TaT. B 3T0M cjiynae CJieflOBano 6bi o> KHflaTb flonojiHHTejibHoro pacxofla φερΜβΗΤΟΒ, HoHeojKHflanno oxa3anocb, ητο πρκ H83HamiTejibH0M floSaBJíeHHH KOMnnexcoo6pa3OBa-Tejia pacxofl φερπεΗτοΒ 3HaHHTeJibHo chh3Hjich. TaxHM o6pa3OM HOBbiftHe OJKHfl aHHbdl 3φφε KT. ΦερΜβητΜ h KOMnneKcoo6pa3OBaTejiH πρΗΜβΗΗΚ, τ npeuMymecTBeHHo flnn cMeceň unos, COCTOHIRHX H3 ΠβρΒΗΗΙΙΟΓΟ ΗΚΤΗΒΗΟΓΟ HJI a.

KojinuecTBa shuhmob yMenbiuaioTCH npn6nn3HTejibHo Ha 90% no cpaBHeHHio c paHeeonHCbiBaeMbiM chocoSom φβρΜβΗτβΤΗΒκοή cTaSHjinaauHH HJia 6e3 κοΜΠπεκοοοβρββο-BaTejiH. IIpHMep ocymecTBneHHH Η3ο6ρετβΗΗΗ 0cBo6o«fleHHbift ot rpy6bix npHMeceň nepBHHHbiň hji cMeiuHBaiiH c Η36μτοηημμ hjiom H3SHonornnecKoro npoijecca b οτηοηιθηηη 1:5, Ha 1 npuMeniHBanH 3-10 r npenapa-Ta H3 Bacillus subtillis praparates η 1 ro 10 r npeflBapHTenbHo pacTBopeHHo—ro KOMnneKcoo6pa3OBaTejiH (flHHaTpHfíflHrHflporeH—ΒΤΗπεΗΑΗΗΜΗΗΤβτρβιχετβτ), 3TycMecb HJia nepeMeuiHBaJXH b TeneHne 5 nacoB npH TeMnepaType 25°C h CJia6o aapn-pOBajIH. IlOCJie HHKybaflHH CTa6HJIH3HpOBaHHOft φερΜβΗΤΗΜΗ HJI OTfleJIHJIH rpaBHTa-BHOHHbíM crymeinieM ot hjioboh BOflbí, coflepjKameň nHTaTejibHbie BewecTBa, h nepe-hochjih Ha unoByio njiomaflxy ρ,ηα cyiiiKH. HnoBaa BOfla HaxoflHT jih6o cneunajibHoeπρΗΜεκβΗΗε, jih6o nepeBOflHTcn b aapoTeHOK.KojinuecTBa shuhmob yMenbiuaioTCH npn6nn3HTejibHo Ha 90% no cpaBHeHHio c paHeeonHCbiBaeMbiM chocoSom φβρΜβΗτβΤΗΒκοή cTaSHjinaauHH HJia 6e3 κοΜΠπεκοοοβρββο-BaTejiH. IIpHMep ocymecTBneHHH Η3ο6ρετβΗΗΗ 0cBo6o «fleHHbift rpm rpy6bix npHMeceň nepBHHHbiň hji cMeiuHBaiiH c Η36μτοηημμ hjiom H3SHonornnecKoro npoijecca b οτηοηιθηηη 1: 5, 1 Ha npuMeniHBanH 3-10 npenapa r-Ta H3 Bacillus subtilis praparates η 1 10 r ro-ro npeflBapHTenbHo pacTBopeHHo KOMnneKcoo6pa3OBaTejiH (flHHaTpHfíflHrHflporeH- )ΠεΗΑΗΗΜΗΗΤβτρβιχετβτ), 3TycMecb HJia nepeMeuiHBaJXH b TeneHne 5 nacoB npH TeMnepaType 25 ° C h CJa 6o aapn-pOBajIH. IlocJie HHKybaflHH CTa6HJIH3HpOBaHHOft φερΜβΗΤΗΜΗ HJI OTfleJIHJIH rpaBHTa-BHOHHbiM crymeinieM ot hjioboh BOflb, coflepjKame nHTaTejibHbie BewecTBa, h nepe-hochjih Ha unoByio njiomaflxy ρ, ηα cyiiiKH. HnoBaa BOfla HaxoflHT south6o cneunajibHoeπρΗΜεκβΗΗε, jih6o nepeBOflHTcn b aapoTeHOK.

OopMyna HaoSpeTeHHH 1... Cnocob φβρΜβΗΤβΤΗΒΗΟή CTa6HJIH3aflHH HJia C ΠΡΗΜβΗβΗΗβΜ flHTOJIHTHHeCKOH CMe-ch φβρΜβΗΤΟΒ, nojiyHeiiHoň H3 Bacillus subtilis, cofleprcameň γηιοκο3μ, npo-Teaabi, aMHJi33bi h flpyrHe βηηημη, xoTopyio flobaBjíHioT b cy6cTpaT b KojiHnecT- 258401 3OopMyna HaoSpeTeHHH 1 ... Cnocob φβρΜβΗΤβΤΗΒΗΟή CTa6HJIH3aflHH HJia C ΠΡΗΜβΗβΗΗβΜ flHTOJIHTHHeCKOH CMe CH φβρΜβΗΤΟΒ, nojiyHeiiHoň H3 Bacillus subtilis cofleprcameň γηιοκο3μ, NPO-Teaabi, aMHJi33bi h flpyrHe βηηημη, xoTopyio flobaBjíHioT b cy6cTpaT KojiHnecT- b 258 401 3

Bax οτ 3-10 μγ/π, πρκ κοτοροΜ HHKySaííHW Be«yT npH TeMnepaTypax npH6nH3H-TenbHO 10-50°C h pH οκοπο 5-8 b τεπειικε 0,5-15 nacoB, npHweM cyOcTpaTnocneflOBaTenbHO pa3flen«eTCH Ha ují h xtHflKyio ifraay, OTnHuawiuHftcH τθμ, πτο .K CMeCH ΛΟδβΒΠΗΙΟΤ KOMttneKCOO6pa3OBβΤβΠΜ B KOHHHeCTBe 35-70% ΟΤ ΚΟΠΗΗβΟΤ-Ba 3HIÍHM0B, 2. Cnoco6 no nýHKTy 1, oTnunaiomHňcH , tgm, hto b KanecTB© KOMnneKcooCpaaoBa-τεπη ηρΗΜβΗπιοτ flHHaTpHflHřHflporeH -STuneHflHaMHHTeTpaaneTaT.Axτ n π-10-10-10-10-10-10-10-10-10-10-10-10-10MMMMMMMMMMMM MτMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMM , OTnHuawiuHftcH τθμ, πτο .K CMeCH ΛΟδβΒΠΗΙΟΤ KOMttneKCOO6pa3OBβΤβΠΜ 35-70% b KOHHHeCTBe ΟΤ ΚΟΠΗΗβΟΤ-Ba 3HIÍHM0B 2. Cnoco6 well nýHKTy 1 oTnunaiomHňcH, TGM, HTO b KanecTB © KOMnneKcooCpaaoBa-τεπη ηρΗΜβΗπιοτ flHHaTpHflHřHflporeH -STuneHflHaMHHTeTpaaneTaT.

AHHQTaUHHAHHQTaUHH

Cnoco6 φβρΜβΗΤεΤΗΒΗΟή CTa6nnH3aUHH ΗΠΟΒ Η3θ6ρβΤβΗΗβ OTHOCHTCH K CnOCOfiy φερΜβΗΤβΤΗΒΗΟή ČTa6miH3aUHH OpraHHHeCKOrOuna.Cnoco6 φβρΜβΗΤεΤΗΒΗΟή CTa6nnH3aUHH ΗΠΟΒ Η3θ6ρβΤβΗΗβ OTHOCHTCH TO CnOCOfi φερΜβΗΤβΤΗΒΗΟή CTa6miH3aUHH OpraHHHeCKOrOuna.

Uenbio Η3θ6ρετβΗΗΗ HBnneTCH noBbímeHHe npon3BOflHTejibHOCTn ycTaHOBOK «πη o6pa-6otkh una npn OflHOBpeMeHHOM cHHxeHHH pacxona shuhmob. B ocHOMy Η3θβρβτβΗΗΗ nonoweHa aaflana pa3pa6oTaTb cnoco6 τρβΗϋφορΜΑιχΗΗ opra-HHUeCKOrO una B CTa6nnH3HpOBaHHyiO (JíOpMy. B COOTBeTCTBHH C Η3θ6ρεΤβΗΗβΜ npHφβρΜβΗΤβΤΗΒΗΟϋ CTa6HHH3aHHH una C ηρΗΜβΗβΗΗβΜ eCTeCTBeHHOň, B. naHHOM cnynaenonynaeMoň H3 Bači Hus subtilis cMec.H φβρΜβΗΤΟΒ, KOTOpyw floGasnaiOT κ cyfi-CTpaTy b xonHMecTBax οτ 3-10 μγ/π, b Hee ΛοββΒΠΗίοτ CMecb KOMnneKCOoÓpasoBa-TenH b KonnnecTBax οτ 35-70% οτ xonimacTBa shiuimob, IIpn3HaHO nao6peTeHneM no peaynbTaTaM axcnepTHSbi, ocytuecTBneHHúft BenoMCTBOMno nenaM Η3θ6ρετβΗΗϋ η πβτεΗτοΒ TflP. 258401Uenbio Η3θ6ρετβΗΗΗ HBnneTCH noBbìHHe npon3BOflHTejibHOCTn ycTaHOBOK «πη o6pa-6otkh una npn OflHOBpeMeHHOM cHHxeHHH pacxona shuhmob. B ocHOMy Η3θβρβτβΗΗΗ nonoweHa aaflana pa3pa6oTaTb cnoco6 τρβΗϋφορΜΑιχΗΗ repaired HHUeCKOrO Una-B CTa6nnH3HpOBaHHyiO (JíOpMy. COOTBeTCTBHH B C Η3θ6ρεΤβΗΗβΜ npHφβρΜβΗΤβΤΗΒΗΟϋ CTa6HHH3aHHH una C ηρΗΜβΗβΗΗβΜ eCTeCTBeHHOň B. naHHOM cnynaenonynaeMoň H3 Baci Hus subtilis cMec.H φβρΜβΗΤΟΒ, KOTOpyw floGasnaiOT cyfi κ-b CTpaTy xonHMecTBax οτ 3-10 μγ / π b Hee ΛοββΒΠΗίοτ CMecb KOMnneKCOoÓpasoBa Tenha-b KonnnecTBax οτ 35-70% οτ xonimacTBa shiuimob, IIpn3HaHO nao6peTeHneM well peaynbTaTaM axcnepTHSbi, ocytuecTBneHHúft BenoMCTBOMno NENA Η3θ6ρετβΗΗϋ η πβτεΗτοΒ TflP. 258401

Claims (2)

4 PŘEDMĚT VYNÁLEZU4 OBJECT OF THE INVENTION 1. Způsob fermentativní stabilizace kalu za použití cyto-lytické směsi fermentů získané z Baoiílus substilis, obsa-hující glukózu, proteázu, amylázu a jiné enzymy, přidávanédo substrátu v množství 3 až 10 mg/1, při kterém se inku-bace provádí při teplotách asi 10 až 50 °C a pH asi 5 až8 po dobu 0,5 až 15 hodin, přičemž se substrát postupněrozděluje na kal a kapalnou fázi, vyznačující se tím, žese ke směsi přidávají komplexotvorné látky v množství 35až 70 % množství enzymů. 25840!A process for the fermentative stabilization of sludge using a cytolytic mixture of ferments obtained from Baoiilus substilis containing glucose, protease, amylase and other enzymes added to the substrate in an amount of 3 to 10 mg / l at which the incubation is carried out at temperatures of about 10 to 50 ° C and a pH of about 5 to 8 for 0.5 to 15 hours, wherein the substrate is sequentially divided into a slurry and a liquid phase, wherein complexing agents are added to the mixture in an amount of 35 to 70% of the amount of enzymes. 25840!
CS876980A 1980-01-07 1980-12-11 Method of sludge's fermentative stabilization CS258401B1 (en)

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DD21832780A DD157965A3 (en) 1980-01-07 1980-01-07 PROCESS FOR ENZYMATIC SLUDGE STABILIZATION

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AT (1) AT388908B (en)
BG (1) BG34816A1 (en)
CS (1) CS258401B1 (en)
DD (1) DD157965A3 (en)
DE (1) DE3045712A1 (en)
SU (1) SU1227604A1 (en)

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* Cited by examiner, † Cited by third party
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DE3441690A1 (en) * 1984-11-15 1986-05-15 VEB Projektierung Wasserwirtschaft, DDR-4020 Halle Process for the enzymatic treatment of organic substances and biomass
DE3443364A1 (en) * 1984-11-28 1986-05-28 FALI Landwirtschaftliche Service GmbH, 7867 Wehr SOURCE TREATMENT AGENTS FOR PREVENTING FLOATING CEILINGS AND SINK LAYERS AND THE USE THEREOF
DE3545321C2 (en) * 1985-12-20 1995-07-20 Gfs Ges Fuer Flugaschenverwert Process for the treatment of sludges containing heavy metals
CS275735B6 (en) * 1988-09-14 1992-03-18 Projekt Wasserwirtschaft Veb Method of mesophilic or thermophilic anaerobic enzymatic conditioning of liquid organic substances and biological materials
DE10249081A1 (en) * 2002-10-21 2004-04-29 Volker Lenski Simplified sewage sludge treatment comprises an enzyme treatment step, and optionally a peroxide treatment step at an acidic pH
SE531167C2 (en) * 2007-05-31 2009-01-07 Kemira Oyj Process for treating sludge in water treatment
CN108585438A (en) * 2018-04-17 2018-09-28 沈阳环境科学研究院 A kind of preparation method of sludge drying co-substrate fermentate

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DE3045712A1 (en) 1981-10-22
DD157965A3 (en) 1982-12-22
BG34816A1 (en) 1983-12-15
DE3045712C2 (en) 1989-04-20
AT388908B (en) 1989-09-25
SU1227604A1 (en) 1986-04-30

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