DD280223A3 - PROCESS OF BIOLOGICAL WASTEWASH CLEANING OF NON-SPECTRUM SURFACE ACTIVE SUBSTANCES - Google Patents
PROCESS OF BIOLOGICAL WASTEWASH CLEANING OF NON-SPECTRUM SURFACE ACTIVE SUBSTANCES Download PDFInfo
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- DD280223A3 DD280223A3 DD86295958A DD29595886A DD280223A3 DD 280223 A3 DD280223 A3 DD 280223A3 DD 86295958 A DD86295958 A DD 86295958A DD 29595886 A DD29595886 A DD 29595886A DD 280223 A3 DD280223 A3 DD 280223A3
- Authority
- DD
- German Democratic Republic
- Prior art keywords
- oöpaöotky
- cleaning
- cnocoö
- oöpaöotkofi
- hmh
- Prior art date
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E50/00—Technologies for the production of fuel of non-fossil origin
- Y02E50/30—Fuel from waste, e.g. synthetic alcohol or diesel
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- Hydrogenated Pyridines (AREA)
- Purification Treatments By Anaerobic Or Anaerobic And Aerobic Bacteria Or Animals (AREA)
Abstract
Die Erfindung betrifft die mikrobiologische Reinigung von Industrieabwässern und kann zur Reinigung von in Betrieben der organischen Feinsynthese anfallenden Abwässern genutzt werden. Um die Reinigungsdauer zu verkürzen und eine Reinigung der Abwässer von schwerabbaubaren nichtionogen oberflächenaktiven Stoffen zu ermöglichen, erfolgt eine 5-10 min dauernde thermische Behandlung bei 85-90ø C in Gegenwart von Glasfaser als Träger des vergärten Bodensatzes mit anschließender Behandlung unter anaeroben Bedingungen mit Hilfe von auf zwei Träger nacheinander angeordneten Bakterienstämmen Bacillus und Pseudomonas, denitrifizierenden, ...atreduzierenden sowie methanbildenden Bakterien.The invention relates to the microbiological purification of industrial wastewater and can be used for the purification of wastewater produced in operations of the organic fine synthesis. In order to shorten the duration of the cleaning and to allow the effluents of heavy-degradable non-ionic surfactants to be treated, thermal treatment is carried out at 85-90 ° C. for 5-10 minutes in the presence of glass fiber as a carrier of the treated sediment followed by treatment under anaerobic conditions with bacterial strains Bacillus and Pseudomonas, denitrifying, ... reducing and methanogenic bacteria, arranged in succession on two supports.
Description
OIMCAHME 143OBPETEIMiI K ABTOPCKOMy CBWJJJ]TSJTbCTByOIMCAHME 143OBPETEIMII K ABTOPCKOMy CBWJJJ] TSJTbCTBy
3aHBJieHo: II.05.843aHBJieHo: II.05.84
3aflBKa: 3739217/2?-263aflBKa: 3739217/2? -26
MKM4: C 02F 3/34MKM 4 : C 02F 3/34
Abtoph: Π.Μ.Γβο3αηκ, B.M.Jror, B.JI.EejiHeB, M.M.Abtoph: Π.Μ.Γβο3αηκ, BMJror, B.JI.EejiHeB, MM
η H.M.η H.M.
3aflBHTejiB: MncTHTyT kojuiohilhoh xhmhh η xhmhh βο,ιιή hm. A.B.JIyMaHCKoro3fflBHTejiB: MncTHTyT kojuiohilhoh xhmhh η xhmhh βο, ιιή hm. A.B.JIyMaHCKoro
HasBaHHe η3Οορθτθηηη: CnOCOB F/IOJIOIMECKOM O1IiICTKMHasBaHHe η3Οορθτθηηη: CnOCOB F / IOJIOIMECKOM O 1 IiICTKM
GTO1IHHX BOH OT ΙΙΕΗΟΗΟΓΕΗΗΗΧ ΠΟΒΞΡΧΗΟσΤΗΟ-ΑΚΤΜΒΗΗΧ BEUlECTBGTO 1 IHHX BOH OT ΙΙΕΗΟΗΟΓΕΗΗΗΧ ΠΟΒΞΡΧΗΟσΤΗΟ-ΑΚΤΜΒΗΗΧ BEUlECTB
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B03M0JKH0CTB OHHCTKH CTOHHHx BOji; οτ TpyjiHopa3pyiiiaeMHX ΗΘΗΟΗΟΓΘΗΗΗΧ ΠΟΒθρΧΗΟΟΤΗΟ-ΟΚΤΗΒΗΗΧ ΒΘϋΙΘΟΤΒ.B03M0JKH0CTB OHHCTKH CTOHHHx BOji; T T TpyjiHopa3pyiiiaeMHX ΗΘΗΟΗΟΓΘΗΗΗΧ ΠΟΒθρΧΗΟΟΤΗΟ-ΟΚΤΗΒΗΗΧ ΒΘϋΙΘΟΤΒ.
Cnocoö ocyqecTBJMK)T cjiejryiomHM oöpa3OM. OHHCTKy ocymecTBJimoT β πρημοτοηηοη ycTanoBKe, cocTOHmeft, nanpHMep, h3 40 coejxtnieHHbix nocjieflOBaTejiMio LtHJIHH1IIpHHeCKHX ΘΜΚΟΟΤΘΗ, B KOTOpHX B KaHeCTBe HOCHTejIH iMKp00praHH3M0B BMOHTHpOBaHO CTeKJIOBOJIOKHO. HaKOIIHTejIB nyio KyJiBTypy aHaapooiibix MHKpoopraiiH3MOB nojiynaioT Hs cöpoxceHHoro ocajiKa. IlojiroTOBKy cÖpoHceHiioro ocajma ocymecTBJiHtoT πγτβΜ TeMnepaTypnon oöpaöOTKH npii 80-900C β ΤβΗθΗΗβ 5-10 MHH B npHCyTCTBHH HfipaCTBOpHMOrO B BOJie η 3arpH3HHK)IJiHX BO1Hy opraiwiecKHX seujecTB, cCnocoö ocyqecTBJMK) T cjiejryiomHM oöpa3OM. OHHCTKy ocymecTBJimoT β πρημοτοηηοη ycTanoBKe, cocTOHmeft, nanpHMep, h3 40 coejxtnieHHbix nocjieflOBaTejiMio LtHJIHH 1 IIpHHeCKHX ΘΜΚΟΟΤΘΗ, B KOTOpHX B KaHeCTBe HOCHTejIH iMKp00praHH3M0B BMOHTHpOBaHO CTeKJIOBOJIOKHO. HaKOIIHTejIB nyio KyJiBTypy aHaapooiibix MHKpoopraiiH3MOB nojiynaioT Hs cöpoxceHHoro ocajiKa. IlojiroTOBKy cÖpoHceHiioro ocajma ocymecTBJiHtoT πγτβΜ TeMnepaTypnon oöpaöOTKH npii 80-90 0 C β ΤβΗθΗΗβ 5-10 MHH B npHCyTCTBHH HfipaCTBOpHMOrO B BOJie η 3arpH3HHK) IJiHX BO 1 Hy opraiwiecKHX seujecTB, c
3JIHMHHHpOBaHHH ΗβΟΠβΙΙ,ΗφΗΗβΟΚΟΗ ΜΗΚροφίΟρΗ Η Γφθ-pa3BHTHH CneiiHajIBHHX MHKpOOpraHH3MOB3JIHMHHHpOBaHHH ΗβΟΠβΙΙ, ΗφΗΗβΟΚΟΗ ΜΗΚροφίΟρΗ Η Γφθ-pa3BHTHH CneiiHajIBHHX MHKpOOpraHH3MOB
copojKemioro oca,iLKa - jiecTpyKTopoB neHOHoreiiHHx noBepx-HOCTHO-aKTHBHHX ΒβΙΙΙΘΟΤΒ (HHAB) pa3JIHHHOrO XHMMHeCKOrO CTpoeilHH (OKCHSTHJrHpOBaHHLLX ΟΠΗρΤΟΒ, KHCJIOT, aJIKHJT-copojKemioro oca, iLKa - jiecTpyKTopoB neHOHoreiiHHx noBepx-HOCTHO-aKTHBHHX ΒβΙΙΙΘΟΤΒ (HHAB) pa3JIHHHORO XHMMHeCKOrO CTpoeilHH (OKCHSTHJrHpOBaHHLLX ΟΠΗρΤΟΒ, KHCJIOT, aJIKHJT-
- 2 -ojioK-conojrnMepoB OKGHflOB STHJieHa η irpomuieiia,- 2 -ojioK-conojrnMepoB OKGHFLOB STHJieHa η irpomuieiia,
c cyMMapHoii KOHH.eHTpaH.HeH 30 r/ji. cxeivia πο3βοληθτ C03Jj;aTB ycjiOBHJi pa3BHTHH na Ka?p;oM ynacTKe coopy^eiiHü οπεφίφΗΜθοκΗχ MHKpoopraHH3MOB, B 1-3 θΜκοοτίΐχ pa3BHBaioTCH MHKpoopra-HH3MLI posoB Bacillus η Pseudomonas » pa3pyiiiaiomHe MHTKHG ΗΠΑΒ B MHKPOaDpCXl)HJIBHLIX yCJIOBHHX, B 3-19 βΜΚΟ-c cyMMapHoii KOHH.eHTpaH.HeH 30 r / ji. cxeivia πο3βοληθτ C03Jj; aTB ycjiOBHJi pa3BHTHH na Ka p;? oM ynacTKe coopy ^ eiiHü οπεφίφΗΜθοκΗχ MHKpoopraHH3MOB, B 1-3 θΜκοοτίΐχ pa3BHBaioTCH MHKpoopra-HH3MLI posoB Bacillus η Pseudomonas »pa3pyiiiaiomHe MHTKHG ΗΠΑΒ B MHKPOaDpCXl) HJIBHLIX yCJIOBHHX, B 3-19 βΜΚΟ-
ΛΕ^τΗΒΗΗθ anaapoÖH KlDVB, pa3pymaioinHe ^θΗΗτρπ-oaKTepHH, ji;ajiee 19-35 θμκοοτηχ - CTporne aHa-3pDOu - cyj^aTBOCOTaHaBJiHBaioiiiHe OaKTepHH, cnocoÖHHe pa3pyiuaTB ο^ιθηβ «ecTKHe ΗΠΑΒ h, HaKOHeu;, K)IHHe (35-40 θμκοοτβ) OaKTepHH, Ben coBOKynHocTBΛΕ ^ τΗΒΗΗθ anaapoÖH KlDVB, pa3pymaioinHe ^ θΗΗτρπ-oaKTepHH, ji; ajiee θμκοοτηχ 19-35 - CTporne AHA 3pDOu - ^ CYJ aTBOCOTaHaBJiHBaioiiiHe OaKTepHH, cnocoÖHHe pa3pyiuaTB ο ^ ιθηβ "ecTKHe ΗΠΑΒ h, HaKOHeu ;, K) IHHe (35-40 θμκοοτβ) OaKTepHH, Ben coBOKynHocTB
ΗΙ£Χ MHKp00praHH3M0B 1103BOJLHeT ΟόβΟΠβΗΗΤΒ pa3pyilieHHe ΗΠΛΒ XHMHHeCKOrO ΟΤρΟΘΗΗΗ ΙφΗ Ha^aJIBHOM KOimeHTpa-30 r/ji H npOÄVKTH HX fleCTpyKIiHH, B ρθ33ΓΛΒΤ8ΤΒ ΗβΓΟΗΙ £ Χ MHKp00praHH3M0B 1103BOJLHeT ΟόβΟΠβΗΗΤΒ pa3pyilHHe ΗΠΛΒ XHMHHeCKOrO ΟΤρΟΘΗΗΗ ΙφΗ HajAJIBHOM KOimeHTpa-30 r / ji H npOÄVKTH HX fleCTpyKIiHH, B ρθ33ΓΛΒΤ8ΤΒ ΗβΓΟ
HeHOHoreHHbix ΠΑ.Β β tükoh JioKajiBHO no npejyiaraeMOMy cnoooöy Bojie οοοτβΒΗΤ 10-20 μγ/ji, no3BOjmeT HanpaBHTB 9Ty Bo^y· na oömeÖHOJiorHHecKHe ohhgt-HHe coopyjKenHH c aKTHBHUM HJiOM. CTeneHB OMHCTKH no y^ajieiiHio ΠΑΒ 99,5-100$, BpeMH npeÖHBanHH CTOKa β coopyKe-HHH lie öojiee 1-2 v. HeHOHoreHHbix ΠΑ.Β β tükoh JioKajiBHO no npejyiaraeMOMy cnoooöy Bojie οοοτβΒΗΤ 10-20 μγ / ji, no3BOjmeT HanpaBHTB 9Ty Bo ^ y · na ooÖeÖHOJiorHHeCKe ohhgt-HHe coopyjKenHH c aKTHBHUM HJiom. CTeneHB OMHCTKH no y ^ ajieiiHio ΠΑΒ 99.5-100 $, BpeMH npeÖHBanHH CTOKa β coopyKe-HHH lie öojiee 1-2 v. Chr.
npro/iep.nper / iep.
Harpy3Ka Ha coopyaceHHe - coÄepstaHne ΗΠΛΒ (ciiHTanoji JlC-IO, cTeapoKG 920, τρπτοΗ X-IOO, npoKoaiioji UJI-3, npeBOiiejiJi SO, Π3Γ-ΙΙ5) B cto^hoü βολθ 30 r/ji, XniidHxp, 47000 MT O2/JI. Mcxo^Haü κοΗΐξθΗτρβίίΗΗ cöpoÄeHHoro ocaji-Ka β nepBofi θμκοοτη 5 r/ji. CoposceuHHii ocaflOK npejp3apH~ TejiBHO no,HBeraioT TepMooopaöoTKe npn 800C β Te^ienne 8 MHH B npHCyTGTBHH CMeCH HMB TTDH ΟθΊΐ|ΘΗ KOHL[eHTpaitHH 30 ν/π. KoHqeHTpaiiHH MHicpoopraniisMOB β bo.iihoh (haee β coopyjKeHHH IO kji/mji. BpeMn npeOHBaHKff CTOKa β coopyjKe-HHH 2 M. OMHCTKy OCymeCTBJIHfOT B ΠρΗΜΟΤΟΜΗΟίϊ yCTaHOBKeHarpy3Ka Ha coopyaceHHe - coApstaHne ΗΠΛΒ (ciiHTanoji JlC-IO, cTeapoKG 920, τρπτοΗ X-IOO, npoKoaiioji UJI-3, npeBOiiejiJi SO, Π3Γ-ΙΙ5) B cto ^ hoo βολθ 30 r / ji, XniidHxp, 47000 MT O2 / JI. Mcxo ^ Haü κοΗΐξθΗτρβίίΗΗ cöpoÄeHHoro ocaji-Ka β nepBofi θμκοοτη 5 r / ji. CoposceuHHii ocaflOK npejp3apH ~ TejiBHO no, HBeraioT TepMooopaöoTKe npn 80 0 C β Te ^ ienne 8 MHH B npHCyTGTBHH CMeCH HMB TTDH ΟθΊΐ | ΘΗ KOHL [eHTpaitHH 30 ν / π. KoHqeHTpaiiHH MHicpoopraniisMOB βbo.ihih (haee β coopyjKeHHH IO kji / mji. BpeMn npeOHBaHKff CTOKa β coopyjKe-HHH 2 M. OMHCTKy OCymeCTBJIHfOT B ΠρΗΜΟΤΟΜΗΟίϊ yCTaHOBKe
β aHaapoöHHX ycjioBHnx. Ka?Kji;aH H3 40 θμκοοτθο ημθθτ oo-bgm 225 Ji. CTeneHB omhctkh no yj^aJieHHio opranHMecKHX 3arpH3-99,5^.β aHaapoöHHX ycjioBHnx. Ka? Kji; aH H3 40 θμκοοτθο ημθθτ oo-bgm 225 Ji. CTeneHB omhctkh no yj ^ aJieHHio opranHMecKHX 3arpH3-99,5 ^.
- 3 -HHTepBajM pejKHMa- 3 -HHTepBajM pejKHMa
TepMOOdpadOTKH ΠρΗΒβββΗΗ B TadJUHje I.TepMOOdpadOTKH ΠρΗΒβββΗΗ B TadJUHje I.
IlpejviaraeMHe rpaHHMHHe 3HaMeHHH TewmepaTypH H Bpe-MeHH TepMOOdpadOTKH cdpo«eHHoro ocajiKa 85-9O0C β Te^e-IlpejviaraeMHe rpaHHMHHe 3HaMeHHH TewmepaTypH H Bpe-MeHH TepMOOdpadOTKH cdpo «eHHoro ocajiKa 85-9O 0 C β Te ^ e-
5-10 MHH πρΗΒΟφίτ κ 99-100$ pa3pyuieHM) opraHiraecKHX 3arpH3HeHnR β CTO^iHOft Büße. Ecjih oöpadoTaTB οοροαθηηηΜ OCaflOK B ΤΘΗΘΗΗΘ 3 HJIH 15 MHH, TO eCTL· ΗΗΚΘ HJIH ΒΜΙΙΘ npe,iiJiaraeMoro npe,n;ejias κοηθ^ηηθ pe3yjiLTaTH o^thctkh yxy,muaiOTCH η οτθπθηβ ohhctkh CHMcaeTCH ro 7b%. AHaziorira-Han KapTHHa HaOjnoflaeTCH, ecjin ποβηοητβ TeMnepaTypHyw oöpaoOTKy npn TeMnepaType, öojiee bhgokoh hjih oojiee hh3-koü, MeM β npe;yiaraeMOM npeÄejie. TaK, npn oöpaöoTKe TeMnepaTypoii 550C pa3pyiiieHKe ΗΠΑΒ npoHCxo^HT Bcero Ha A0%, a npH TeMnepaType 950C - Bcero Ha I0J2.5-10 MHH πρΗΒΟφίτ κ 99-100 $ pa3pyuieHM) opraHiraecKHX 3arpH3HeHnR β CTO ^ iHOft busses. Ecjih oöpadoTaTB οοροαθηηηΜ OCaflOK B ΤΘΗΘΗΗΘ 3 HJIH 15 MHH, TO eCTL · ΗΗΚΘ HJIH ΒΜΙΙΘ npe, iiJiaraeMoro npe, n; ejia s κοηθ ^ ηηθ pe3yjiLTaTH o ^ thctkh yxy, muaiOTCH η οτθπθηβ ohhctkh CHMcaeTCH ro 7b%. AHaziorira-Han KapTHHa HaOjnoflaeTCH, ecjin ποβηοητβ TeMnepaTypHyw oöpaoOTKy npn TeMnepaType, oojiee bhgokoh hjih oojiee hh3-koü, MeM β npe; yiaraeMOM npeÄejie. TaK, npn oöpaöoTKe TeMnepaTypoii 55 0 C pa3pyiiieHKe ΗΠΑΒ npoHCxo ^ HT Bcero Ha A0%, a npH TeMnepaType 95 0 C - Bcero Ha I0J2.
CpaBHHTejiBHHe ^aHHHe no npewiaraeMOMy η Η3βθοτηο-My cnocooaM npe^CTaBJieHH β TaOJrarie 2.CpaBHHTejiBHHe ^ aHHHe no npewiaraeMOMy η Η3βθοτηο-My cnocooaM npe ^ CTaBJieHH β TaOJrarie 2.
npejviaraeMHH cnocoo no3BOJineT OMHmaTL οτοηηηθ bo- W, coÄepscamne ΗΠΑΒ pa3jnwHoro χημηηθοκογο οτροβΗΜΗ XHMH^eCKHX ΤΗΠΟΒ ΗΠΑΒ) H BHCOKHX HaHajIBHHX KOH-npejviaraeMHH cnocoo no3BOJineT OMHmaTL οτοηηηθ bo- W, coÄepscamne ΗΠΑΒ pa3jnwHoro χημηηθοκογο οτροβΗΜΗ XHMH ^ eCKHX ΤΗΠΟΒ ΗΠΑΒ) H BHCOKHX HaHajIBHHX KOH-
30 r/ji, c bhcokoä οτβπβΗ&κ» omhctkh, ÄOCTHra-99,5-100^. Cjie^yeT οτμθτητβ, mto Η3Βθοτηηη cnocoo He no3BOjmeT onnmaTB iiaHHue οτομηηθ bojch, a tojieko onpeiiejieHHoro cocraBa c Ha^ajitHoft KOHiieHTpaqneii 6,5 ν/π. KpoMe Tore, npejyiaraeMHH cnocoo no3BOJweT coKpaTHTB BpeMH oöpadoTKH CTOKa β 12 pa3.30 r / ji, c bhcokoä οτβπβΗ & κ »omhctkh, ÄOCTHra-99,5-100 ^. Cjie ^ yeT οτμθτητβ, mto Η3Βθοτηηη cnocoo He no3BOjmeT onnmaTB iiaHHue οτομηηθ bojch, a tojieko onpeiiejieHHoro cocraBa c Ha ^ ajitHoft KOHiieHTpaqneii 6,5 ν / π. KpoMe gates, npejyiaraeMHH cnocoo no3BOJweT coKpaTHTB BpeMH oöpadoTKH CTOKa β 12 pa3.
OdocHOBaHHe nocjie^oBaTejr&HocTH oöpaöoTKH MHicpoopranH3MaMH npe^cTaBJieHO β Taojome 3.OdocHOBaHHe nocjie ^ oBaTejr & HocTH oöpaöoTKH MHicpoopranH3MaMH npe ^ cTaBJieHO β Taojome 3.
ΗΓΙΛΒ β eMofiΗΓΙΛΒ β eMofi
Be 3 TepMooopaoOTKHBe 3 TepMooopaoOTKH
CTeapoKC 6, OG-20, runponoji 200,CTeapoKC 6, OG-20, runponoji 200,
nOJIHSTHJieHrJIHKOJIL·nOJIHSTHJieHrJIHKOJIL ·
an KOHueH ΗΠΛΒ, τ/π to KOHueH ΗΠΛΒ, τ / π
ΧΠΚόΗχρ (Hcxojmoe), r O2AΧΠΚόΗχρ (Hcxojmoe), r O 2 A
ΒρθΜΗ OMHCTKH, xl ΒρθΜΗ OMHCTKH, x l
CTeneiiB ^CTeneiiB ^
6,26.2
1717
24 99-10024 99-100
TepMooopaoo-TaHHHHTepMooopaoo-TaHHHH
CHHTaHOJi AC-10, CTeapoKC 920,CHHTaHOJi AC-10, CTeapoKC 920,
TpHTOH X-IOO,TpHTOH X-IOO,
npoKcaHOJi D[JI-3, npeBou;ejLJi EO, nOJIH3THJieH-TJTHKOJIl-IIOnpoKcaHOJi D [JI-3, npeBou; ejLJi EO, nOJIH3THJieH-TJTHKOJIl-IIO
3030
47 1-247 1-2
99,9799.97
35 B MHCJiHTejie - CTeneiiB omhctkh ctohhhx bo^ ot CTeapoKca-6, OC-20, rHjiponoJia-200, nojiHSTiinen rjiHKOJW-35 β KoimeHTpaqrai 6,2 τ/π, β 3HaMeHaTejie - cTenenb ohhctkh ctohhhx bo^, OMnmaeMHx no cnocooy, ho β ycjioBHnx H3BecTiioro. 35 B MHCJiHTejie - CTeneiB omhctkh ctohhhx bo ^ ot CTeapoKca-6, OC-20, rHjiponoJia-200, nojiHSTiinen rjiHKOJW-35 β KoimeHTpaqrai 6,2 τ / π, β 3HaMeHaTejie - cTenenb ohhctkh ctohhhx bo ^, OMnmaeMHx no cnocooy, ho β ycjioBHnx H3BecTiioro.
2 ßO 2 2 32βO 2 2 3
ΜΗκροόΗοΐί oöpaöoTKii BemecTB γ/jiΜΗκροόΗοΐί oöpaöoTKii BemecTB γ / ji
30 0,1530 0.15
·-» cyj^aTpe,2]yKTbpH -»· - »cyj ^ aTpe, 2] yKTbpH -»
30 19,230 19.2
pOflOB BacilluspOFLOB Bacillus
HPseudomonae eTaiiorenH H Pseudomon a e eTaiiorenH
Bacillus Pseudomonaß TaHoreHHBacillus Pseudomon a ß TaHoreHH
MeTaHoreHH--MeTaHoreHH--
p^p ^
Bacillus M PseudomonasBacillus M Pseudomon a s
30 3030 30
30 3030 30
Claims (2)
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
SU843739217A SU1460045A1 (en) | 1984-05-11 | 1984-05-11 | Method of biological purification of waste water of non-ionogenic surfactants |
DD86295958A DD280223A3 (en) | 1984-05-11 | 1986-11-05 | PROCESS OF BIOLOGICAL WASTEWASH CLEANING OF NON-SPECTRUM SURFACE ACTIVE SUBSTANCES |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
SU843739217A SU1460045A1 (en) | 1984-05-11 | 1984-05-11 | Method of biological purification of waste water of non-ionogenic surfactants |
DD86295958A DD280223A3 (en) | 1984-05-11 | 1986-11-05 | PROCESS OF BIOLOGICAL WASTEWASH CLEANING OF NON-SPECTRUM SURFACE ACTIVE SUBSTANCES |
Publications (1)
Publication Number | Publication Date |
---|---|
DD280223A3 true DD280223A3 (en) | 1990-07-04 |
Family
ID=25748093
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
DD86295958A DD280223A3 (en) | 1984-05-11 | 1986-11-05 | PROCESS OF BIOLOGICAL WASTEWASH CLEANING OF NON-SPECTRUM SURFACE ACTIVE SUBSTANCES |
Country Status (2)
Country | Link |
---|---|
DD (1) | DD280223A3 (en) |
SU (1) | SU1460045A1 (en) |
-
1984
- 1984-05-11 SU SU843739217A patent/SU1460045A1/en active
-
1986
- 1986-11-05 DD DD86295958A patent/DD280223A3/en not_active IP Right Cessation
Also Published As
Publication number | Publication date |
---|---|
SU1460045A1 (en) | 1989-02-23 |
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