LV10679B - Method and apparatus for clarifying of liquids - Google Patents
Method and apparatus for clarifying of liquids Download PDFInfo
- Publication number
- LV10679B LV10679B LVP-93-1382A LV931382A LV10679B LV 10679 B LV10679 B LV 10679B LV 931382 A LV931382 A LV 931382A LV 10679 B LV10679 B LV 10679B
- Authority
- LV
- Latvia
- Prior art keywords
- substance
- solids
- amount
- line
- hjih
- Prior art date
Links
- 238000000034 method Methods 0.000 title claims abstract 9
- 239000007788 liquid Substances 0.000 title claims 3
- 239000007787 solid Substances 0.000 claims abstract 10
- 238000001914 filtration Methods 0.000 claims abstract 9
- 235000011389 fruit/vegetable juice Nutrition 0.000 claims abstract 5
- 230000001105 regulatory effect Effects 0.000 claims abstract 4
- 238000001471 micro-filtration Methods 0.000 claims abstract 3
- 239000012465 retentate Substances 0.000 claims abstract 3
- 238000000108 ultra-filtration Methods 0.000 claims abstract 3
- 239000000126 substance Substances 0.000 claims 13
- 239000000463 material Substances 0.000 claims 4
- 230000000717 retained effect Effects 0.000 claims 4
- 230000001419 dependent effect Effects 0.000 claims 2
- 241000219094 Vitaceae Species 0.000 claims 1
- 235000021028 berry Nutrition 0.000 claims 1
- 235000013399 edible fruits Nutrition 0.000 claims 1
- 230000009969 flowable effect Effects 0.000 claims 1
- 235000021021 grapes Nutrition 0.000 claims 1
- 239000010802 sludge Substances 0.000 claims 1
- 235000013311 vegetables Nutrition 0.000 claims 1
- 108010093488 His-His-His-His-His-His Proteins 0.000 description 1
- 210000001624 hip Anatomy 0.000 description 1
- 210000003734 kidney Anatomy 0.000 description 1
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D61/00—Processes of separation using semi-permeable membranes, e.g. dialysis, osmosis or ultrafiltration; Apparatus, accessories or auxiliary operations specially adapted therefor
- B01D61/14—Ultrafiltration; Microfiltration
- B01D61/145—Ultrafiltration
-
- A—HUMAN NECESSITIES
- A23—FOODS OR FOODSTUFFS; TREATMENT THEREOF, NOT COVERED BY OTHER CLASSES
- A23L—FOODS, FOODSTUFFS, OR NON-ALCOHOLIC BEVERAGES, NOT COVERED BY SUBCLASSES A21D OR A23B-A23J; THEIR PREPARATION OR TREATMENT, e.g. COOKING, MODIFICATION OF NUTRITIVE QUALITIES, PHYSICAL TREATMENT; PRESERVATION OF FOODS OR FOODSTUFFS, IN GENERAL
- A23L2/00—Non-alcoholic beverages; Dry compositions or concentrates therefor; Their preparation
- A23L2/70—Clarifying or fining of non-alcoholic beverages; Removing unwanted matter
- A23L2/72—Clarifying or fining of non-alcoholic beverages; Removing unwanted matter by filtration
- A23L2/74—Clarifying or fining of non-alcoholic beverages; Removing unwanted matter by filtration using membranes, e.g. osmosis, ultrafiltration
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D29/00—Filters with filtering elements stationary during filtration, e.g. pressure or suction filters, not covered by groups B01D24/00 - B01D27/00; Filtering elements therefor
- B01D29/60—Filters with filtering elements stationary during filtration, e.g. pressure or suction filters, not covered by groups B01D24/00 - B01D27/00; Filtering elements therefor integrally combined with devices for controlling the filtration
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D61/00—Processes of separation using semi-permeable membranes, e.g. dialysis, osmosis or ultrafiltration; Apparatus, accessories or auxiliary operations specially adapted therefor
- B01D61/14—Ultrafiltration; Microfiltration
- B01D61/147—Microfiltration
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D61/00—Processes of separation using semi-permeable membranes, e.g. dialysis, osmosis or ultrafiltration; Apparatus, accessories or auxiliary operations specially adapted therefor
- B01D61/14—Ultrafiltration; Microfiltration
- B01D61/22—Controlling or regulating
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D29/00—Filters with filtering elements stationary during filtration, e.g. pressure or suction filters, not covered by groups B01D24/00 - B01D27/00; Filtering elements therefor
- B01D29/88—Filters with filtering elements stationary during filtration, e.g. pressure or suction filters, not covered by groups B01D24/00 - B01D27/00; Filtering elements therefor having feed or discharge devices
- B01D29/885—Filters with filtering elements stationary during filtration, e.g. pressure or suction filters, not covered by groups B01D24/00 - B01D27/00; Filtering elements therefor having feed or discharge devices with internal recirculation through the filtering element
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D29/00—Filters with filtering elements stationary during filtration, e.g. pressure or suction filters, not covered by groups B01D24/00 - B01D27/00; Filtering elements therefor
- B01D29/88—Filters with filtering elements stationary during filtration, e.g. pressure or suction filters, not covered by groups B01D24/00 - B01D27/00; Filtering elements therefor having feed or discharge devices
- B01D29/94—Filters with filtering elements stationary during filtration, e.g. pressure or suction filters, not covered by groups B01D24/00 - B01D27/00; Filtering elements therefor having feed or discharge devices for discharging the filter cake, e.g. chutes
- B01D29/945—Filters with filtering elements stationary during filtration, e.g. pressure or suction filters, not covered by groups B01D24/00 - B01D27/00; Filtering elements therefor having feed or discharge devices for discharging the filter cake, e.g. chutes for continuously discharging concentrated liquid
Landscapes
- Engineering & Computer Science (AREA)
- Water Supply & Treatment (AREA)
- Chemical & Material Sciences (AREA)
- Chemical Kinetics & Catalysis (AREA)
- Polymers & Plastics (AREA)
- Nutrition Science (AREA)
- Life Sciences & Earth Sciences (AREA)
- Food Science & Technology (AREA)
- Health & Medical Sciences (AREA)
- Separation Using Semi-Permeable Membranes (AREA)
- Non-Alcoholic Beverages (AREA)
- Preparation Of Fruits And Vegetables (AREA)
- Medicines Containing Plant Substances (AREA)
- Crystals, And After-Treatments Of Crystals (AREA)
- Infusion, Injection, And Reservoir Apparatuses (AREA)
- Closures For Containers (AREA)
Description
LV 10679
CIIOCOE OCBETJIEHMfl SHZIKOCTEti, B HACTHOCTH, CblPIļOBOrO
COKA, A TAKJKE ΥΟΤΑΗΟΒΚΑ JlJIfl OCyiUECTBJIEHHH CnOCOEA
Η3θ6ρβτβΗΜβ KacaeTCH cnocoča ocBeTJieHHH «HflKOCTeii, b HacTHocTH, ctipuoBoro cona H3 OBomefi, BHHorpaaa, nroji hjih npyrHx Φριτκτοβ h OBomefi, c noMomb» yjn>Tpa- hjih MMKpoφ^iJIb TpaiļHH .
B CJiynae H3 ΒβΟΤΗΜΧ Cnoeo6oB MHKpC^HJIbTpailHH H
yJIbτpaφκJIbτpa^MH nacTo Hcnojib3yioTCH HMeiomne φορι^ Tpy6bt hjih nJiHTbi MeM6paHHbie φΗΠΒτρΒίΐΜΟΗΗΜβ MonyjiH. IIojiJieiKatuaH OCBeTJieHHIO HJIH φΗΙΙΒΤρ31ΙΗΗ HCHUKOCTb ΠρΟΙΘΚββΤ ΠΟΠβρθΗΗΟ φΗΛΒ TpaijHOHHOMy ycTpoiicTBy nepes noBepxHocTH MeM6paHHbix φΗΙ^ΤρΟΒ. ΙΙρΗ 3TOM OCBeTJieHHblii COK, ΓφΟΧΟΛΗΠ^Η Cy6cTaHUHfl, OTiiejiHeTCH ot coiiepacameit ocīaTOHHbie nponyKTbi Φηιιβτρβιιηη jkhukocth, yflep*HBaeMaH cy6cTaHUHH. 3tot npouecc HecKOJibKo pa3 noBTopneīCH b KOHType iiHpi<yjiHiiHH ynep3KHBaeMoii cy6cTaHUHH. Ilpn btom b cjiyHae pa6oTbi c napTHefi nponyKUHH npoHcxoflHT Tenymee B03pacTaHHe KOHueHTpauHH ocTaTOHHbix nponyKTOB φπιΐΒτρβιΐΗΗ, Tan Ha3bieaeMofi jiojih conepjKaHHH TBepabtx BemecTB.
HeuocīaTOK οτογο Η3βθοτηογο cnocofia 3aKJH0HaeTcn b tom, HTO C yBeJIHHeHHeM ΒρθΜΘΗΗ φΗϋΒΤρΒΙΙΗΗ H y BeJIHHeHHeM JJOJIH cojiep*aHHH TBepnbix BemecTB b ynep*HBaeMoft cy6cTaHiiHH npOHCXOflHT yMeHbmeHHe φΗΙΙΒΤρ3ΙΙΗΟΗΗθίί MOIUHOCTH, KOTOpan Bbipa*aeTCH, HanpHMep, b kojihhcc τ b e οτβολημοΛ npoxoji«iiieii cy6cTaHiiHH Ha ejiHHHiiy φHJIbτpa^HOHHoίi noBepxHOCTH h eneHHuy ΒρβΜΘΗΗ. 3TO ΟΗΗΙΚΘΗΗβ φΗΙΙΒΤρ31ΙΗΟΗΗθβ MOUIHOCTH MOJKeT 2
COCTaBJIHTb ΜβΗθβ nOJIOBHHbl HCXOflHOfi BejIHHHHbl. Hjlfl flOCTHHCeHHH OnpefleJieHHOft φΗΙΙΒΤρ3ΗΗΟΗΗθίΐ MOIIļHOCTH n03T0My npH
KOHCTpyKTHBHOM HCIIOJIHeHHH yjIbTpa- HJIH ΜΗΚρθφίυΐΒΤρ3Ι1ΗΟΗΗθίΐ ycīaHOBKH ηθο6χολημο CHHīaTbca c yMeHbineHHoft BeJiHHHHoft φΗΠΒTpaUHOHHO^ MOfflHOCTH. 3TO Tpe6yeT, OflHaKO, 6oJIbIIIHX φΗ Jlb TpaiJHOHHbIX ΠΟΒβρΧΗΟσΤθίί Η ΒΘ,ΒΘΤ K C03 JiaHHX) ΛοροΓοοτοΗπίΗΧ, noflHac HepeHTa6ejibHbix ycTaHOBOK c 6ojibiiiHM KOJIHMeCT BOM φΗϋΒΤρβίίΗΟΗΗΒΙΧ MOflyJieft. 3aflaneft Μ3θ6ρθτβΗΗΗ ηβπηθτοη npeflOTBpameHHe Ha3BaHHbix HeaocTaTKOB h pa3pa6oTKa Tanoro cnocoča, KOTopbitt npn yMeHbmeHHH BKJiaflbiBaeMbix cpencTB o6ecneHHBaex BbicoKyio φHJIbTpa^MOHHyK) MOIHHOCTb. 3Ta 3aflana peuiaeTca b cooTBetcTBHH c Η3θ6ρβτβΗΗβΜ 3a CHeT τογο, hto iiojiH coflepMtaHHH TBep,nbix BemecTB b yflep*HBaeMofi cy6cTaHUHH 6bicTpo y BejiHHeBaeTCfi 3a οηθτ
noBbimeHHH KOHiļeHTpaiļHH b τθηθηηθ BpeMeHH pa3roHa h nocjie flOCTH*eHHfl MaKCHMaJIbHOfi φΗΠΒ TpaiJHOHHOil MOIIIHOCTH
nOflflepHCHBaeTCH Ha riOCTOHHHOft BeJIHHHHe nOCpeflCTBOM peryjiHpoBaHMH. 3a οηθτ βτογο CHanajia yMeHbiuaiomaiica, a 3aTeM BHOBb y BejiHMHBaiomaHCH npn najībHefiuieM y BejiHHeHHH nonu COļiepjKaHHH TBepflbIX BemecTB $HJTbTpaiiHOHHaH MOHIHOCT b ΜΟ)ΚβΤ nofl,nep)KHBaTbCH Ha ypoBHe, jie*amHM 3HaHHTeJibHO Bbnue μοχοληοΛ BejIHHHHbl.
Una οπρβΛθϋθΗΗΛ aojiH coflep*aHHH TBepļioro BemecTBa h hjih perynHpoBaHHfl coctohhhh yflep*HBaeHoft cy6cTaHUHH b KOHType UHpKyjixuHH yflep*HBaeMoii cy6cTaHUHH ocymecTBJiaeTCH H3MepeHHe flojiH coflep*aHHfl TBepaoro BemecTBa hjih npyrofi, 3asHchmoīi ot flojiH coflep*aHHH TBepfloro BemecTBa BejIHHHHbl, h BejiHHHHa H3MepeHHH HCnOJIb3yeTCH HJIH peryjlHpOBaHHH KOJIHHeCTBa οτβολημοΛ yflep»cHBaeMOft cy6cTaHiļHH hjih KOJinnecTBo πολβολημογο cBeacero cona.
B cjiynae npyroii φορΜΜ HcnojiHeHHa Η3θ6ρβτβΗΗΗ hjih peryjinpoBaHHH coctohhhh y,aep*HBaeMoft cy6cTaHUHH ocywecTBJifleTCH H3MepeHHe KOJinnecTBa οτβολημο# npoxoa«iuefi Cy6cTaHIļHH HJIH φΗΙΙΒΤρΒΙΙΗΟΗΗΟϋ MOIUHOCTH H BejiHHHHa Η3ΜβρβΗΗΗ Hcnojib3yeTCH ajih peryjiHpoBaHHH KOJinnecTBa οτβολημοΑ ynep)KHBaeMoK cy6cTaHHHH hjih KOJinnecTBa πολβολημογο CBeacero cona. Πρκ 3tom H3MepeHHe flOJiH conepjKaHHH TBepfloro BemecTBa 3 LV 10679
MoxceT OTnanaTb, Ta« KaK cocTOHHHe yfiep)KHBaeMoft cy6cTaHiļHH b mHpOKOft CTeneHM 3aBHCHT TaKMCe OT φΗΙΙΒΤρ3ΙΙΗΟΗΗθΛ MOntHOCTH.
CjienjromHft πρΗΜβρ ηοποπηθημη H3o6peTeHnx npeflycMaTpHBaeT b nejiHX peryjiHpoBaHHX coctohhhh yfiep»HBaeMoft cy6cTaHiiHH, H3MepeHHe nan hojih conep*aHHH TBepnoro BemecTBa hjih npyro#i 3aBHCHMO# OT HOJIH COHepHCaHHH ΤΒβρΠΟΓΟ BemecTBa BeJIHMHHbl, TaK h KojiHHecTBa οτβοπημοΛ yxep>KHBaeMoft cy6cTaHiiHH hjih
$MJībTpailMOHHOlt MO®HOCTH, ΠρΗΜβΜ 3afiaHHaH BeJIHMHHa flOJIH coflepjKaHHfl TBepnoro BemecTBa onpeneJineTcn nocpencTBOM
MaKCHMaJIbHOft BeJIHMHHbl (})HJIbTpaL(HOHHOft MOIHHOCTH, KOTOpaH ΜΟΚβΤ
6biTb nocTHrHyTa b Hanajie npoiiecca. PeryjiHpoBaHHe coctohhhh ynep*HBaeMOfi cy6cTaHUHH ocymecTBjiHeTcx npn 3TOM b 3aBHCHMOCTH OT hojih conepHcaHHH TBepnoro BemecTBa, 3anaHHoe 3ηβμθηηθ κοτοροΛ ηθ ηβπηθτοη, οπΗβκο 3aflaHHbiM b KanecTBe onpenejieHHoft onbīTHbiM nyTeM BeJIHMHHbl, a onpeneJineTCH nocpencTBOM TeKymero H3MepeKHH (ļ)HjibTpau(HOHHoft mooihocth.
C IieJIb» nOJiyMeHHH B ΤβΜβΗΗβ ΒρβΜβΗΗ pa3roHa no B O 3 MOJKHOC T H BbICOKOtt KOHIļeHTpaiIHH flOJIH COflep*aHHH ΤΒβρΠΟΓΟ BemecTBa b ynep*HBaeMoft cy6cTamwn b τθμθηηθ no bo3Mo*hocth MHHHMajībHOrO ΒρβΜβΗΗ nepBOHaMaJIbHO HCnOJIb3yeTCH OTHOCHTeJIbHO Majioe KOJiHMecTBo ynep*HBaeMoft cy6cTaHiļHH, a ocTaJībHan nacTb KOJiHMecTBa napTHH nonBOflHTCH k KOHrypy UHpKyjixiiHH yflep>KHBaeMO ft cy6cTaHiiHH TOJibno nocjie flocTHaceHHH 3anaHHoro 3HaMeHHH hojih conepacaHHfl TBepnoro BemecTBa. ycTaHOBKa hjih ocymecTBJieHHH cnoco6a b cooTBeTCTBHH c Η3θ6ρβΤβΗΗβΜ OTJIHMaeTCH ΤβΜ, MTO B KOHType IIHpKynflIIHH ynep*HBaeMofi cy6cTaHiiHH yjibTpa- hjih ΜΗκροφΗΐΉτρΒίΐΗΟΗΗο# ycTaHOBKH pacnojioaceHo H3MepHTeJibHoe ycTpo#icTBO hjih H3MepeHHH Hojih conepacaHHH TBepnoro BemecTBa, κοτοροβ Mepe3 H3MepHTenbHy» JIHHHK) COeflHHeHO C peryJIKpy»mHM yCTpoftCTBOM HJIH peryjiHpoBaHHH coctohhhh ynepxeH8aeMoft cy6cTaHijHH.
B cjiyMae flpyroft φορΜΜ HcnojiHeHHH cooTBeTCTByiomefi Η3θ6ρβτβΗΗΚ> ycTaHOBKH b jihhhh hjih oTBOfla ynepxcHBaeMoft Cy6cTaHUHH yjībTpa- HJIH ΜΗΚροφΗΙΉΤρΒΗΗΟΗΗΟϋ yCTaHOBKH pacnOJIOHCeHO H3MepHTeJIbHOe yCTpOŪCTBO HJIH H3MepeHHH KOJiHMecTBa οτβοπημοΛ ynepxcHBaeMoft cy6cTaHiiHH hjih φΗΙΙΒΤρβΙΙΗΟΗΗΟϋ MOmHOCTH, ΚΟΤΟρΟβ Μβρβ3 H3MepHTeJIbHyK) JIHHHK) coenHHeHo c peryjiHpyiomHM ycTpo#icTBOM hjih peryjiHpoBaHHH coctohhhh yflepxcnBaeMofl cy6cTaHUHH. B cjiynae cne,ayK>mett φορΜΜ HcnojiHeHHH cooTBeTCTByiomeft Η3θ6ρβΤΘΗΗΚ) yCTaHOBKH JļOnOJIHHTeJTbHO K M3MepHTeJIbHOMy ycTpoftcTBy ληη Η3ΜβρβΗΗΗ λοjih co,nep>KaHHH TBepaoro BenjecTBa npeaycMOTpeHO H3MepHTexrbHoe ycTpoficTBO ,kjth H3MepeHHH φΗΠΒΤρ3Ι1ΗΟΗΗθί! MOiņHOCTH, ΠρΗΗβΜ H3MepHTeJIbHbie yCTpofiCTBa nepe3 H3MepMTejibHbie jihhmh οοθληηθημ c peryjinpyiomHM ycTpoftcTBOM ΛΛΗ peryjiHpoBaHHH coctohhhh yflep>KHBaeMO« cy6cTaHUHH. B cooTBeTCTBHH c Η3θ6ρβτβΗΗβΜ peryjinpoBaHHe COCTOHHHH yaep*HBaeMoft cy6cTaHUHH μο*θτ ocynjecTBJiHTbCH 3a cneT peryjiHpoBaHHH KOJiHHecTBa οτΒΟΛΗΜοϋ yflep*HBaeMoft cy6cTaHiļHH, πρΗΗβΜ peryjiHpyiomee ycTpoftcTBo coeflHHeHo nepe3 ynpaBJiHio®yio jihhhk) c peryjiHpyiomHM ΒβΗτκηβΜ, KOTopbifi pacnojiaraeTCH b OTBeTBJieHHoii ot KOHTypa uHpi<yjiHUHH y«ep)KHBaeMoft cy6cTaHUHH jīhhhh flJiH oTBOfla y,n;ep)KHBaeMofi cy6cTaHiļHH. B COOTB6TCTBHH CO CHeflyMmHM npH3HaKOM Η3θ6ρβΤ6ΗΗΗ peryjiHpoBaHHe coctohhhh yflep*HBaeMoft cy6cTaHUHH μο>κθτ ocymecTBHHTbCH nocpeflCTBOM peryjiHpoBaHHH KOJiHHecT Ba πολβολημογο CBeiKero coKa, πρΗΗβΜ peryjiHpyioiiiee ycTpoftcTBO nepe3 ynpaBJiHiomyio jihhhjo coeflHHeHO c peryjiHpyx)®HM ΒβΗΤΗπβΜ, KOTopbift pacnojioateH b jihhhh «jih noflBOfla CBe*ero cona.
HocTHraeMbie c noMombio η3ο6ρθτθηηη npneMymecTBa 3aKJnoHa»TCH b tom, hto 3a οηθτ noAflepHcaHHH λολη coflep*aHHH TBepaoro BenjecTBa b yflep*HBaeMott cy6cTaHUHH Ha onpefleneHHofl nOCTOHHHOft B6JIHHHH6 flOCTHraiOTCH BeCbMa BbICOKHe BeJIHHHHbl φΗΗΒΤρ3ΙΙΗΟΗΗθβ MOIHHOCTH. KOJIHHeCTBO <(>HJIbTpaiiHOHHbIX MOflyJieft Μθ*βτ 6biTb yMeHbmeHof Tan kslk οκοηομηη Φηηβ TpaiļHOHHofi ĪIOB6pXHOCTH COCTaBJĪHeT OKOJIO 50%. 3TO Π03BOJTHeT HCn0JIb30BaTb yjfībTpa- HJIH ΜΗΚροφΗΠΒ TpaiJHOHHbie yc TaHOBKH C BbICOKOft
ΠρθΗ3 BOflHTeHbHOCTbK) ΠρΗ He3HaHHTeJIbHO# ΠΟΤρβόΗΟίί nJIOma^H H yMeHbmeHHbix pacxoflax. 3a cneT οτογο flocTHraeTCH BbicoKan peHTa6eJībHOCTb yCTaHOBKH. Ποτβρπ φΗΠΒ TpaiJHOHHOfi MOIHHOCTH npH pa3TOHe TaK*e hbjthjotch cymecTBeHHo MeHbmHMH no cpaBHeHH» c OČblHHbIMH CnOCo6aMH, TaK KaK ΠρΗ HCnOJIb 30BaHHH MajIOTO KOJiHHecT Ba yflep)KHBaeMofl cy6cTamļHH b τθηθηηθ
HenpOflOJDKHTeHbHOrO ΒρβΜβΗΗ OCyH(eCTBJIHeTCH pa3TOH flO BbICOKOrO Κ03φφΗΗ6ΗΤ3 KOHIļeHTpanHH. l|HpKyjIHHHOHHbIŪ o6beM HBJIHeTCH
JT LV 10679 OTHOCHTeJIbHO MaJībIM H B03M05KHO HdīOJIb 30ΒβΗΗΘ JIHHH# C MaJIOft flJIHHHOtt. IIOTepU flaBJieHHH H OHeprHM TaK%e hbjihkjtch
He3HaHHTeJIbHbIMH . Η3θ6ρβτβΗΗβ no«CHKeTCH 6ojiee ποαρο6ηο b οοοτΒβτστΒΗΗ c npHBefleHHbIM HHJKe OriHCaHHeM Ha OCHOBaHHH ΗβρΤΘ)ΚΘΗ c HeCKOJIbKHMH ΠρΗΜβρΒΜΚ ΜΟΠΟΛΗβΗΜΗ.
Ha Φηγ. 1 cxeMaTHHecKH noKa3aHa cooTBeTCTBjaomaH Η3θ6ρβτβΗκκ) ycTaHOBKa c flOJieil coflepacaHHH TBepfloro BemecTBa b KanecTBe BejiHHHHbi Η3ΜβρβΗ ηη h KOJiHHecTBOM otboahmo8 yflep>KHBaeMOii cy6ČTaHijHH b KanecTBe peryjiHpoBOHHoft BeJiHHHHbi; Φηγ. 2 - flpyran φορΜβ HcriojiHeHHH cooTBeTCTBy»meii H3o6peTeHH» ycTaHOBKH c flOJieft coflepacaHHH TBepfloro BemecTBa b KanecTBe βθπηηηημ H3MepeHHH h KOJiHHec τ b om ποαβοαημογο CBeacero coKa b KanecTBe peryjiHpoBOHHoft βθληηηηβι; Φηγ. 3 - cjieflyx>maH φορΜΒ HcnojiHeHHH cooTBeTCBjromeft Η3θ6ρβΤβΗΗΚ» yCTaHOBKH K KOJIHHeC ΤΒ3Μ OTBOflHMOii ΠρΟΧΟΛΗΕΙθή cy6cTaHUHH ( Φηλβτρβιιηοηηβη moiuhoct b) b KanecTBe BeJiHHHHbi Η3ΜβρβΗΗΗ H KOJiHHec TBOM OTBOflHMO# yflepjKHBaeMOfl Cy6cTaHIIHH B nanecTBe peryjiHpoBOHHOtt βθιιηηηηη.
ycTaHOBKa no Φηγ. -1 coctoht H3 yjibTpa- hjim ΜΗΚροφΗΛΒΤρβηΗΟΗΗΟΛ yCTaHOBKH 1 C KOHTypOM L(HpKy JIHHHH ynep)KHBaeMOfl cy6cTaHUHH, κοτορΜβ o6po30BaH noflBOflHmeft jihhueH 2, pacnoJioaceHHoū Ha CTopoHe yflepHCHBaeMoii cy6cTaHiiHH φHJIbτpyκ)I^eίt noBepxHOCTbio 3 h OTBOflHmeft JiHHHeft 4. Ha οτοροΗβ npoxonflmeft Cy6cTaHIIHH yjIbTpa- HJIH ΜΗΚροφΗΙΙΒΤρΒΗΗΟΗΗΟίί ycTaHOBKH 1 npomeflmHfi φΗΐ^τρΒΗΗΐο ocBeTJieHHbiii cok otboahtch nepe3 JiHHH» 5 ajih OTBOfla npoxoflHmefi cy6cTaHHHH. K KOHTypy HHpKyjiHUHH yflep*HBaeMoft cy6cTaHiiHH ot pe3epeyapa 6 napTHH MaTepnaJia nepe3 jihhhd 7 iīoaboahtch noflJiejKaiflHft φΗΛΒτρβιΐΗΗ cbipuoBoft cok. B jihhhh 7 npeflycMOTpeH noflaioiAHfi Hacoc 8, a b nouBOHHmefi jihhhh 2 KOHTypa UHpKyjiHiiHH yflepjKHBaeMoft cy6cTaHiiHH - HHpKyjiHiļHOHHbift Hacoc 9. Ot OTBOAAmeit jihhhh 4 OTBeTBJiHeTCH jihhhh 10 ajih OTBOfla yflep*HBaeMOfl cy6cTaHU,HHr KOTopaη ΒβΛβτ κ He H3o6paxceHHOMy c6opHOMy pe3epeyapy ajih ynepjKHBaeMOfi cy6cTaHHHH. B noflBOAHnieft jihhhh 2 KOHTypa HHpKyjiHiiHH yflep*HBaeMo8 cy6cTamiHH pacnojioHceHO H3MepHTejibHoe ycTpoftcTBO II c noMonļbio KOToporo ocymecTBJiHeTCH H3MepeHHe Aojih coAepxcaHHH TBepnoro BeņecTBa b yflep>KHBaeMoft cy6cTaHiiHH. <5"
OnpeflejieHHaH BejiHHHHa M3MepeHHH iioctohhho nepenaeTCH no H3MepHTeJibHoii jthhmm 12 κ peryjiHpy»iiieMy ycTpoficTBy 13. Ot peryjiHpyiomero ycTpoiicTBa 13 ynpaBJiaioiQafl jihhhh 14 Ββηβτ κ peryjiHpyiomeMy βθητμπιο 15, KOTopbiii pacnoJio*eH b jihhhh 10 hjih OTBona ynep>KHBaeMoft cy6cīaHiiHH.
B pe3epByap 6 napTHH MaTepnajia nepBOHanaJībHO bbohhtch jiHmb H63HaHHTejibHoe KOJiHHecTBo nonJiejKamero φHJIbτpa^HH cbipnoBoro cona. CbipiiOBbift cok nocīynaeT nepe3 jihhh» 7 b KOHTyp iļHpKyjiHUHH ynep*HBaeMoii cy6cTaHiiHH h HanpaBJineTCH c nOMOIKblO HHpKyJIHHHOHHOrO HaCOCa 9 C MaCTO nOBTOpHIOmHMCH LJHKJIOM L5HpKyjIHIļHH MHMO φHJIbTpylOI^e¾ ΠΟΒβρΧΗΟΟΤΗ 3, KOTOpafl OTflejiHeT ocBeTJieHHbift cok ot cbipnoBoro coKa. C B03pacTaHHeM KOHIļeHTpaiIHH ynep>KHBaeMOii Cy6cTaHHHH φΗΙ^ΤρΗΙΙΗΟΗΗΗΗ MOHIHOCTb yMeHbmaeTCK CHanajia ro nojioBHHbi ηοχοληοΛ βθιιηηηημ h BHOBb B03pacTaeT πρπ cjienyionieM yβθπηηθηηη jiojih coflepacaHHH TBepnoro BemecTBa flo βθιιηηηημ, KOTopaa jiejKHT cymecTBeHHO Bbtme ηοχοληοΛ BejiHHHHbi. 3to ycTaHOBJieHHoe onbīTHbiM nyTeM, cymecTBeHHoe yjiyHmeHHe φΗπΒτρΒίΐΗΟΗΗοϋ moiiihocth cjienyeT odbHCHHTb ΤΘΜ, HTO ΠρΗ ΠΟΒΜΠΙβΗΗΗ KOHIļeHTpaiIHH flOJIH conep*aHHH TBepnoro BemecTBā b ynep»cHBaeMoii cy6cTaHUHH Η3Μ6ΗΗβτοιι xapaKxepncTHKa noTOKa. IīpennojiaraeTCH, hto HaMHHaa c onpenejieHHofi KOHiieHTpaiiHH TBepaoro BeņecTBa ποτοκ Η3ΜβΗΗΘΤΟ H OT BHfla nOTOKa C HbKJTOHOBOft XapaKT epHC T HKOfl K BHfly δηοκοΒΟΓΟ noTOKa. rpaHHHHMft cjio8 noTOKa b ofijiacTH CTeHKH φΗΤΙΒΤρΗ CymeCTBeHHO yBeJIHHHBaeTCfl B CKOpOCTH h ero TOJintHHa cymecTBeHHo yMeHbmaeTCH. Πρπ πομοπϊη οτογο οφφβκτΒ CBeatan ynepxcHBaeMaH cy6cTaHiiHH nocTynaeT κ φΗ Jib TpaiiHOHHoii noBepxHocTH cymecTBeHHo 6bicTpee h o6ycjiaBJiHBaeT yjiyHmeHHyK> HHCTKy Φηλβτρ3Ι1ηοηηογο cjioh c πομοπιι»» ΛοηΗ TBepnoro BemecTBa b ynepjKHBaeMott cy6cTaHiiHH. B pe3yjibTaTe βτογο npenoTBpamaioTCfl najībHeftniHe οτλο3Κθηηη, KOTopue MoryT o6yCJIOBHTb CHHMCeHHe φΗηΒΤρ3ΗΗΟΗΗθίί MOIIIHOCTH.
Ecjih, oflHaKo, nojifl conepwaHHH TBepnoro BemecTBa b ynep)KHBaeMoft cy6cTaHijHH nponoJi*aeT yBejiHHHBaTbCH, to b gtom cjiynae nocTHraeTcn JiHmt He3HaHHTeJibHoe najībHeflmee yBejiHHeHHe φΗΛΒΤρ3ΙΙΗΟΗΗθίί MOIIIHOCTH, a ΠρΗ HaJIbHefimeM y BeJIHHeHHH flOJIH coflepwaHH« TBepnoro BemecTBa iiHpKyjiHiiHH npepbiBaeTca BCJieflCTBHe cJinniKOM bmcoko# noJiH conepacaHHH TBepnoro LV 10679 *
BemecTBa. OnpenejieHHaa οπμτημμ nyTeM BeJiHHHHa jiojih COflepHCaHHH ΤΒβρΑΟΓΟ BemeCTBa, npH KOTOpOft φΗΙΙΒΤρΒΙΙΗΟΗΗβΒ MomHocTb ļiocTMraeT cBoero MaKCHMy Ma, cocTaBJifleT b cyxoM COCTOHHHH, 6e3 paCTBOpHMbIX B BOfle HaCTMLI, npH6jIM3HTeJIbHO 5% flJIH H6jIOHHbIX COKOB. 3īa HJIH 3aBHCHMaH OT Hee BeJTHHHHa 3aflaeTCH b KanecTBe 3anaHHoit βθιιηηηημ jijik peryjiHpyiomero ycTpoiiCTBa 13. C noMombio H3MepMTeJibHoro yctpoftcTBa II ocy®ecTBjiBeTcn onpenejieHHe coctohhhh jMiepatHBaeMofl cy6cTaHUHH hjih aojih conep*aHHH TBepnoro BemecTBa b y,nep>KHBaeMoft cy6cTaHiiHH h BejiHHHHa H3MepeHHfl nepenaeTCH nepe3 H3MepHTexibHyio jihhhk) 12 h nanee cpaBHHBaeTCA c 3anaHHbiM 3HāH6HH6M b peryjiHpy»meM ycTpoūcTBe 13. B cjiyHae perHCTpapHH coBnaneHHB ocymecTBjineTCH OTnnpaHne peryjiHpy®mero bbhthjīh 15 nepe3 ynpaBJifliomyio jihhhio 14 h onpeneJieHHoe κοαηηθοτβο ynep>KHBaeMoft cy6cTaHUHH otbohhtch nepe3 jihhhio 10 īuib. oTBOfla ynep>KHBaeMo8 cy6cTaHUHH H3 KOHTypa UHpKyjiHiiHH yflep*HBaeMo8 cy6cTaHiiHH. OnHOBpeMeHHo c οτππρβΗΗβΜ peryjiHpy»niero βθητηιιη 15 ocTajībHaH nacTb KOJiHHecTBa napTHH cbipiioBoro cona ββολητch b pe3epByap 6 h c noMombio nonaiomero Hacoca 8 nouBonHTCH b KanecTBe cBe*ero cona κ KOHTypy iiHpKyjiKUHH ynep*HBaeMoii cy6cTaHiiHH. nocpejicTBOM najībHeftuiero peryjiHpoBaHH« KOJiHHecTBa oTBonHMoft ynep*HBaeMoft cy6cTaHiiHH 3aaaHHan BejiHHHHa hojih coflep*aHHH TBepnoro BemecTBa h, cjienosaTejibHo, MaKCHMajībHan φΗΙΙΒΤρ3Ι4ΗΟΗΗ3Η HOIIIHOCTb ĪIOJUiepjKHBaeTCfl Ha riOCTOHHHOft BeJIHHHHe. BCJieHCTBHe Ηβ3Η3ΗΗΤβΙΙΒΗΟΓΟ ΒΜΧΟΑΗΟΓΟ KOJIHHeCTBa cbipuoBoro cona b HanaJie cnoco6a očecneHHBaeTCH bo3mo*hoctL· flOCTH*eHHB b τβπβΗΗθ KpaTHaftmero ΒρβΜθΗΗ cooTBeTCTByiome8 3anaHHoft BejiHHHHbi flOJiH conepAcaHHH τΒβρΛΟΓΟ BemecTBa KOHueHTpauHH ynep>KHBaeMofl cy6cTaHUHH h, cjienoBaTejibHo, MaKCHMaJIbHOft MOmHOCTH φHJIbTpa^HH. 3TOT ΠρΟΜβ^ΤΟΚ ΒρβΜθΗΗ Μ03ΚΘΤ COCTaBJIHTb B 3aBHCHMOCTH OT BeJIHHHH pa3JIHHHbIX BJIHflK}IUHX φ3ΚΤθρθΒ npH6jIH3HTeJIbHO OT 8 flO 20 MHH. ΒΜβΟΤΟ Η3ΜβρβΗΗΗ flOJIH COAepKaHHH ΤΒβρΛΟΓΟ ΒΘ®ΘΟΤΒΘ C nOMOnib® H3M6pHT6JIbHOrO yCTpoftCTBa II ΜΟΧβΤ OCymeCTBJIBTbCH Η3ΜθρθΗΗΘ Hpyroft, 3aBHCHM08 OT HOJIH COAepBCaHHH ΤΒβρΛΟΓΟ BemecTBa βθχιηηηημ, HanpHMep, My thocth , bh3kocth, ynejibHo8 nJioTHOCTH, «aBJieHHH, TeMnepaTypw hjih προφΗΛΗ noTona 2 yflep*HBaeMoft cy6cTaHiiHH. Πρκ οτομ onpeneJieHHH coctohhmh ynepxcHBaeMoft cy6cTaHnHH MoryT HcnoJib30Barbc« Tarae HecKOJibKO BeJIHHHH H3MepeHHfl.
Cjieny»mHfl πρΗΜβρ ηοποπηθηηα Η3θ6ρβτβΗΗΗ H3o6paxceH Ha Φηγ. 2. Πρκ 3 TOM KOJiMHecTBO nepeMemaHHoft yne pgcHBaeMo# Cy6cTaHLlHH HBJIHeTCH 6oJiee 3HaHHTeJIbHbIM ΠΟ CpaBHeHM» c HcnojiHeHHeM no Φηγ. 1. 3a cneT οτογο o6ecneHHBaeTCH B03MO!KHocTb λοογμ*θηηλ 6ojiee HHepuHOHHOft u,erm peryjiHpoBaHHH. PeryjiHpoBaHHe coctohhhh ynepxcHBaeMOft cy6cTaHUHH hjih nonnep«aHHe nonu conepacaHHH TBepnoro BemecTBa Ha ποοτοηηηομ ypoBHe ocymecTBnBeTCH b cjiynae οτοίί φορΜΜ ηοποληθηηη ue nocpe.ncT bom KOjinnecTBa oTBonHMoft ynep*HBaeMoft cy6cTaHUHH, a nocpencTBOM KOJinnecTBa πολβοηημογο cBe*ero cona. Ot peryjiHpyiomero ycTpoftcTBa 13 ynpaBJiHK>inan jihhhh 16 προχοΑΗΤ κ perynHpyioineMy BeHTHjno 17, KOTopbift pacnojio«eH b jihhhh 18 nna noflBona CBejKero cona. JIhhhh 18 nJiH noflBOfla CBe*ero cona, b κοτοροϋ pacnojiojKeH Hacoc 19, προχοηκτ οτ pe3epeyapa 20 co CBexcHM cokom κ pe3epByapy 6 napTHH MaTepnajia. Πρκ Hanajie nponecca, aHaJiorHHHO cjiyHa» HcnoJiHeHHH no Φηγ. 1, nojiH conep*aHH« TBepnoro BemecTBa. B ynepMCHBaeMoft cy6cTaHunn ρβ3κο B03pacTaeT h H3MepHeTCfl c noMOinb» H3MepHTeJibHoro ycTpoficTBa II b KOHType 2, 3, 4 UHpKyjTHUHH ynepxHBaeMott cy6cTaHUHH.
OnHOBpeMeHHO c noMombio CJienjnomero, pacnojio*eHHoro b jihhhh 5 flJiH OTBona προχοηΗΐπβΛ cy6cTaHnHH H3MepHTejibHoro ycīpoiicTBa 21 ocymecTBJiHeTCH H3MepeHHe očbeMHoro noTona προχοη«Ώβίί cy6cTaHnHH, κοτορΜίί cooTBeTCTByeT Φηλβτpannohho# mohihocth. BejiHHHHa H3MepeHHH nepenaeTCH nepe3 H3MepHTejibHyio jihhhio 22 κ peryjiHpyiomeMy ycTpoftcTBy 13. PeryjiHpoBaHHe nojiH conepacaHHH TBepnoro BemecTBa ocyinecTBJiHeTCH, TaKHM 0<5pa30M, He c noMombio 3anaHHoii, nojiyHeHHotf οπητηημ nyTeM βθιιηηηημ aHaJiorHHHO HcnoJiHeHHio no Φηγ . 1, a c noMombio Ha6jnoneHHH 3a xapaKTepHCTHKoft φΗη&τρ3ΐΐΗθΗΗθίί MomHocTH b Hanajie nponecca. Kan TojibKO 6yneT n°CTHrHyTa MaKCHMajībHO B03M0*Hafl φΗηΒΤρ3ΙΙΗΟΗΗ3Η MOOIHOCT b HJIH HaHHeTCH CHHMteHHe φΗίϋ>Τρ3ΙΙΗΟΗΗθίί MOmHOCTH, nOCTHrHyTa« K 3TOMy MOMeHTy ΒρβΜβΗΗ nOJin conep*aHHH TBepnoro eeinecTBa b ynep*HBaeMO#i cy6cTaHnnH nonnep*HBaeTCH Ha ΠΟΟΤΟΗΗΗΟίί BeJIHHHHe. C 3TOfi nejlbio peryjiHpy»inee ycTpoftcTBO 13 nepe3 ynpaBJiH»inyio jihhhio 16 3 LV 10679 oTiiHpaeT peryjiHpyiomHft seHTHJib 17, b pe3yjibTaTe Mēro σΒβκκίί cok MOHceT nocTynaTb ot pe3epByapa 20 b pe3epeyap 6 napTHH MaiepnaJia h oTTyna no jihhhh 7 b KOHTyp 2, 3, 4 mipKyjiHUHH. ĪIonnep*aHHe nojiH conepacaHHH TBepnoro BemecTBa Ha ποοτοηηηοΑ BeJIHHHHe B ΤβΜβΗΗβ BCeft flJIHTeJIbHOCTH npOUeCCa OCymeCTBJIHeTCH b aaHHOM cJiyHae BHOBb c noMombio H3MepHTejibHoro ycTpoflcTBa II, κοτοροβ ocymecTBJīHeT TeKymy» nepemaMy H3MepeHHoft bojih coflep*aHHa TBepnoro BemecTBa k peryjiHpy»meMy ycTpoftcTBy 13.
Bo3MO*eH, oļjHaKO, TaK*e m tot cjiyMaft, noma peryjiMpoBaHMe nona conepacaHHH TBepnoro BemecTBa b yflep*MBaeHoft cy6cTaHUMH ocymecTBJiHeTCH HenocpencTBeHHo Ha OCHOBaHHM φΗηΒΤρ3ΗΗΟΗΗθΛ MODļHOCTH, KOTOpaH B mHpOKOtt Μβρβ, 3aBHCHT OT COCTOHHHH yflep*HBaeMOft Cy6cTaHIJHH, 6e3 Η3ΜβρβΗΗΛ «ΟΠΗ coflep*aHHH TBepaoro BemecTBa. KaK noKa3aHO Ha Φηγ. 3, H3MepHTejibHoe ycTpoftcTBO II b KOHType UHpKyjiHHHH 2, 3, 4 yflep*HBaeMoft cy6cTaHUMH πρκ 3TOM OTnanaeT. H3MepHTenbHoe ycīpoftcTBo 21, κοτοροβ pacnojioaceHO b jihhhh 5 njin OTBona npoxoflHmeū cy6cTaHiļMH, ocymecTBJifleTCH ποοτοηηηοθ H3MepeHHe $HJIbTpaUMOHHOŪ MOIKHOCTH C CaMOTO HaHaJIbHOrO HOMeHTa H BejiHMHHa H3MepeHHH nepe3 H3MepHTeJibHyio jihhh» 22 bboahtcb b peryjiHpyiomee ycīpoftcTBO 13. K HaHajiy nponecca ycTaHOBKa pa3roHfleTCH no noBbnneHHofi BeJiHHHHM Φηλβτρ3ηηοηηοΑ modihocth. KaK TOJibKO 6yneT nocTHrHyTa MaKCHMajībHO βο3μο>κη3λ φΗΛΒΤραυ(ΗΟΗΗ3Η MOņHOCTb HJTH HaMHeTCfl ΟΗΗΙΚβΗΗβ φΜϋΒ TpaUHOHHOft moibhocth, nepe3 ynpaBJTHiomyio jihhhio 14 ocymecTBJi«eTcfl oTnnpaHHe peryjiHpyiomero βθητηλη 15 h φHJIbτpa^HOHHaH MomHocTb hjih nojiH conepjKaHHA TBepnoro BemecTBa b ynep)KHBaeMoft Cy6cTaHHHH nOnnep*HBaiOTCH B ΤβΜβΗΗβ Bceft flJIHTeJIbHOCTH nponecca Ha nocTOHHHoft BejiHMHHe nocpencTBOM peryjiHpyeMoro OTBona ynep)KHBaeMoft cy6cTaHijHH. BMecTO OTBOfla ynep5KHBaeMoft cy6cTaHijHH peryjiHpoBaHHe Μθ*βτ ocymecTBJiHTbCH Tanace nocpencTBOM nonBona cBe*ero cona, KaK bto nonasaHO b npHMepe HCnOJIHeHHH πο Φηγ. 2. LV 10679 ΦΟΡΜΥΛΑ Η30ΒΡΕΤΕΗΗϋ
1. Cnoeo6 OCBCTJieHHH JKHUKOCTH, npeflnOHTHTeJIbHO CbipiiOBOrO COKa H3 OBOiueft, BHHorpaiia, ηγολ hjih λρ>τηχ φργκτοΒ η OBomež nyreM yjIbTpa HJIH ΜΗΚροφΗΓΙΚΓρΒΙΙΗΗ, OmAUHŪlOUļUŪCA ΪΤΪβΜ, HTO, C IļeJIbK) noBbiuieHHH Bbixo;ia, noBbiuiaioT coaepacaHHe TBepjibix BemecTB (peTeHraia) b ynepxnBaeMoft cy6cTamiHH nocpeacTBOM noBbiuieHHa KOHiļeHTpauHH b TeneHHe bpcmchh pa3roHa, h nocjie aocTOceHHH
MaKCHMajIbHOŪ φΗΛΒΤρ3ΗΗΟΗΗθβ MOIIiHOCTH nOUJiepjKHBaiOT Ha ΠΟΟΤΟΛΗΗΟΜ ypOBHe. 2. Cnoco6 no π. 1, onuuHaiouĻuūcn mejvt, hto, b iienn uhp^jihiihh yaepxcHBaeMOH cy6cTaHUHH ocymeeTBJunoT H3MepeHHe jjojih ΤΒερΛΜΧ BemecTB HJIH JipyrOH, 3aBHCHMOH ΟΤ JIOJIH TBepHbIX BemecTB BeJIHHHHbl, H peryjmpyioT kojihhcctbo OTBoaa ynepxcHBaeMott cy6cTaHiiHH hjih nojiBona CBeacero coxa β 33βηοημοοτη ot H3MepeHHoft bcjihhhhh.
3. Cn0C06 ΠΟ Π. 1, OmAUHūJOUŅlŪCM meM, HTO, H3MepaiOT KOJIHHeCTBO ΟΤΒΟΛΗΜΟή ΠρΟΧΟΛΗΙΙΙβΗ Cy6CTaHUHH HJIH φκΠΒΤρ31ΙΗΟΗΗθή MOLUHOCTH h peryjiHpyiOT KOJinnecTBo οτΒΟΛΗΜοή 3aflepxHBaeMoft cy6cTamiHH hjih KOJIHMeCTBO ΠΟΛΒΟΛΗΜΟΓΟ ΟΒΟΚβΓΟ COKa B 3aBHCHMOCTH OT H3MepeHHbIX
BejIHMHH. 4. Cnoco6 no Jiio6oMy H3 nn. 1-3, οτηΛίίπαιοιιιμύαι meM, hto, H3MepflioT KaK hojiio co,nepxaHHJi TBepnbix BemecrB hjih jipyryio 3aBHCHMyiO OT flOJIH TBepJbDC BemeCTB ΒβΛΗΗΗΗΥ, TaK H KOJIHHeCTBO OTBOflHMOH ΠροΧΟΛΗΙΙίβΗ Cy6CTaHlļHH HJIH φΚίΙΜρΒΗΗΟΗΗΟϋ MOIUHOCTH, npHHeM 3aaaHHyK) BejiHHHHy jiojih co,aepxaHHJi TBepm>ix Bemecre onpejiejnnoT Ha οοηοββημη MaKCHMajībHO B03HHicaiomeii b Hanajie nponecca BCJIHHHHbl φΐυΐΜρΒΙΙΗΟΗΗΟή MOIUHOCTH. 5. Cnoco6 no Jiio6oMy H3 nn. 1-4, ottvumatouņiūcx meM, hto b τβΗβΗΗβ BpeMeHH pa3roHa nponecca Hcnojn>3yioT qacTb KOJiHuecTBa yaepxHBaeMoii cy6craHUHH h nocjie ,ζιοογηχοηηη 3anaHHoii BejiHHHHbi b;ojih coflepxaHHa TBepflbK BemecTB πολβοαητ ocTajibHyio Maču» yaep*HBaeMoii cy6cTaHUHH κ KOHTypy HHpicyjiimHH 3Toft cy6cTaHUHH. 6. VcTaHOBKa jum ocBeTJiSHHH jkhjikocth, cojiepacamaa pe3epeyap jūdi napTHH MaTepnajia, yjibipa- hjih ΜΗκροφιυικη^ιΐΗθΗΗ}Τθ ycraHOBKy, HHpKyjiHHHOHHbift KOHTyp yziepxHBaeMoft cy6craHUHH c UHpKyjiHUHOHHbiM HacocoM, coejtHHeHHbift c pe3epeyapoM ūjix napTHH Maiepnajia nepe3 jihhhio noueojia cbipuoBoro coKa c noaaiomHM HacocoM, h jihhhio Ķjui OTBOjia npoxouHmeii cy6cTaHUHH, onvumamnaRCR meM, hto c nejibio noBbiineHHH Bbixozia, oHa cHa6xeHa H3MepHTejibHbiM yCTpoftCTBOM flOJIH COaepXaHHH ΤΒβρΛΒΙΧ BemecTB, yCTaHOBJieHHbIM B jihhhh KOHTypa iiHpKyjmiļHH yaepxHBaeMOH cy6cTaHUHH h coejHHeHHbiM nepe3 H3MepHTejibHyio jihhhio c peryjiHpyioiiiHM ycrpoftcTBOM, cjiyxamHM jjjin peryjiHpoBaHHH ypoBHH. 7. VcTaHOBKa no n. 6, onuuHūH>UĻaxcx meM, hto OHa CHa6xeHa H3MepHTejIbHHM yCTpOŪCTBOM, CJiyxaiUHM BJIR H3MepeHHH φΐΙ/ΙΒΤρΒΙΙΗΟΗΗΟΗ MOIIIHOCTH, yCTaHOBJieHHbIM B JIHHHH JJJIR OTBOfla npoxojwmeii cy6cTaHUHH h coejļHHeHHbiM b jihhhh OTBojia npoxojwmeH cy6cTaHUHH h coejiHHeHHbiM Hepe3 H3MepHTejibHyio jihhhio c peryjiHpyioiiiHM ycTpoftcTBOM. 2 LV 10679 8. VcTaHOBKa no n. 6, omAumnotnastai mm, hto oHa cHa6xeHa peryJIHp0B04HBIM BeHTHJieM, pacnOJIOJKeHHBIM Ha JIHHHH OJlfl CJIHBa yaep*MBaeMoft cy6craHiiHH h coe^HHeHHHM c peryjiHpyiomHM ycrpoft CTBOM. 9. VcTaHOBKa no nn. 6 hjih 7, omumaiovuflnai mm, hto OHa cHa6xeHa peryjiHpyioimtM BemmieM, ycTaHOBJieHHbiM Ha jihhhh nojiBoaa cBeacero coKa b pe3epByap, coeaHHeHHbiM nepe3 ynpaBJWioiiiyio jihhhio c peryjiHpyiomHM ycipoftcTBOM. 3 LV 10679 ΡΕΦΕΡΑΤ B cooTBeTCTBHH c cooTBeTCTBjriomHH Η3θ6ρβτβΗΗΐο cnoco6oM OCB6TJI6HHH CbipUOBOrO COKa B ΤΘΗβΗΗβ ΒρβΜβΗΗ pa3roHa ocymecTBJiHeTCH ČMCTpoe noBbnneHHe ņonti coflepacaHHH TBepjjoro semecTBa b KOHTjrpe (2, 3, 4) iinpKyji/mHH y,nep)KHBaeMOfi
Cy6cTaHIJHH yjTbipa- MJIH MHKpO({)HJIb TpaiJHOHHOft yCTaHOBKH (I). C ποβμπιθηηθμ aojīh coAepKaHMH τβθρλογο BemecTBa <t>HJibTpauHOHHafl MomHocTb CHanaJia 3HaHHTejibHo yMeHbmaeTCH, a 3aīeM BHOBb yBeJiHHHBaeTCH jļo βθπηηηημ, KOTopaa jie*HT Bbime ηοχοληο# BeJIHHHHbl. ΠρΜ flOCTHHCeHHH MaKCHMaJIbHO B03M0JKH0fi BeJIHHHHbl <t>HJIbTpaUHOHHOft MOIUHOCTH ROĪ1R COflepjKaHHH ΤΒβρΛΟΓΟ ΒΘΙΙΙβΟΤΒβ Η, cne^oBaTeJibHO, τβιοκβ h <pnjīb Tpai^MOHHa a MomHoc τ b noflflepjKMBaioTCfl Ha ποοτοηηηοΛ ΒβΠΗΗΗΗβ nocpencTBOM peryjiMpoBaHHiū KOJinnecTBa οτθολημοΛ yjnep*MBaeMoK cy6cTaHUHH hjih KOJiHMecTBa πολβολημογο cBe*ero coKa. 3a cneī οτογο Μθ*βτ 6biTb cyuiecTBeHHO yjiyHmeHa (ļmjībTpamiOHHaH MOisHOCTb.
Claims (9)
- LV 10679 IZGUDROJUMA FORMULA 1. Paņēmiens šķidruma dzidrināšanai, īpaši no dārzeņiem, vīnogām, ogām un citiem augļiem un dārzeņiem ultra- vai mikrofiltracijas ceļā iegūtās jēlsulas dzidrināšanai, kas atšķiras ar to, ka, nolūkā paaugstināt iznākumu, paaugstina cieto vielu retentāta saturu aizturamajā substancē, paaugstinot koncentrāciju palaišanas laikā un pēc maksimālās filtrācijas jaudas sasniegšanas to notur konstantā līmenī.
- 2. Paņēmiens saskaņā ar 1.p., kas atšķiras ar to, ka aizturamās substances cirkulācijas kontūrā mēra cieto vielu daudzumu vai citu no cietās vielas daudzuma atkarīgu parametru un, atkarībā no izmērītā lieluma, regulē aizturamās substances aizplūdi vai svaigās sulas pievadu.
- 3. Paņēmiens saskaņā ar 1.p., kas atšķiras ar to, ka mēra aizplūstošās caurtekošās substances daudzumu vai filtrācijas jaudu un, atkarībā no Izmērītā lieluma, regulē aizturamās substances aizplūdi vai svaigās sulas pievadu.
- 4. Paņēmiens saskaņā ar jebkuru no 1 .-3. p.p., kas atšķiras ar to, ka mēra gan cieto vielu daudzumu vai citu no cieto vielu daudzuma atkarīgu parametru, gan arī aizplūstošās caurtekošās substances daudzumu vai 1 filtrācijas jaudu, pie kam cieto vielu satura daudzumu nosaka, pamatojoties uz procesa sākumā novērotām filtrācijas jaudas maksimālām vērtībām.
- 5. Paņēmiens saskaņā ar jebkuru no 1.-4. p.p., kas atšķiras ar to, ka procesa palaišanas laikā izmanto daļu aizturamās substances un pēc tam, kad iepriekš noteiktais cieto vielu daudzums saturā sasniegts, ievada pārējo aizturamās substances daļu minētās substances cirkulācijas kontūrā.
- 6. Iekārta šķidruma dzidrināšanai satur rezervuāru materiāla partijai, ultra- un mikrofiltrācijas aparatūru, ar cirkulācijas sūkni apgādātu aizturamās substances kontūru, ko jēlsulas pievada līnija un padeves sūknis savieno ar materiāla partijai paredzēto rezervuāru un caurtekošās substances aizplūdes līniju, kas atšķiras ar to, ka, nolūkā paaugstināt iznākumu, tā apgādāta ar mērierīci cietas vielas satura daudzuma noteikšanai, kas uzstādīta aizturamās substances cirkulācijas kontūrā un pa mērlīniju savienota ar līmeni regulējošu ierīci.
- 7. Iekārta saskaņā ar 6.p., kas atšķiras ar to, ka tā apgādāta ar filtrācijas jaudas mērierīci, kas uzstādīta aizturamās substances aizplūdes līnijā un pa mērlīniju savienota ar regulēšanas ierīci.
- 8. Iekārta saskaņā ar 6.p., kas atšķiras ar to, ka tā apgādāta ar regulēšanas ventili, kas uzstādīts aizturamās substances aizplūdes līnijā un savienots ar regulēšanas ierīci.
- 9. Iekārta saskaņā ar 6. vai 7.p., kas atšķiras ar to, ka tā apgādāta ar regulēšanas ventili, kas uzstādīts rezervuāra svaigās sulas pievada līnijā un ar vadības līniju savienots ar regulēšanas ierīci. 2
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CH3852/87A CH673959A5 (lv) | 1987-10-02 | 1987-10-02 | |
PCT/CH1988/000177 WO1989002708A1 (en) | 1987-10-02 | 1988-09-30 | Process and installation for decanting liquids, in particular raw juices |
Publications (2)
Publication Number | Publication Date |
---|---|
LV10679A LV10679A (lv) | 1995-06-20 |
LV10679B true LV10679B (en) | 1995-12-20 |
Family
ID=4264864
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
LVP-93-1382A LV10679B (en) | 1987-10-02 | 1993-12-28 | Method and apparatus for clarifying of liquids |
Country Status (10)
Country | Link |
---|---|
US (1) | US5252350A (lv) |
EP (1) | EP0333807B1 (lv) |
AT (1) | ATE69933T1 (lv) |
CH (1) | CH673959A5 (lv) |
DE (1) | DE3866694D1 (lv) |
LV (1) | LV10679B (lv) |
MD (1) | MD373C2 (lv) |
RU (1) | RU1829912C (lv) |
UA (1) | UA11240A (lv) |
WO (1) | WO1989002708A1 (lv) |
Families Citing this family (18)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CH680105A5 (lv) * | 1989-05-18 | 1992-06-30 | Bucher Guyer Ag Masch | |
HUT57017A (en) * | 1989-10-20 | 1991-11-28 | Bucher Guyer Ag Masch | Method for clearing raw fluids and apparatus for carrying out the method |
DE3936798C1 (lv) * | 1989-11-04 | 1991-01-24 | Dortmunder Actien-Brauerei Ag, 4600 Dortmund, De | |
CH680976A5 (lv) * | 1990-07-04 | 1992-12-31 | Bucher Guyer Ag Masch | |
CH681768A5 (lv) | 1990-07-06 | 1993-05-28 | Bucher Guyer Ag Masch | |
FR2701359B1 (fr) * | 1993-02-15 | 1995-05-12 | Bretagne Aromes | Procédé pour dénitrifier et déminéraliser, au moins partiellement, un jus de légumes et jus ainsi obtenu. |
CH689328A5 (de) * | 1994-10-25 | 1999-02-26 | Bucher Guyer Ag Masch | Verfahren und Vorrichtung zum Eindicken von Fest/Flüssig-Gemischen mittels Membrantechnologie. |
US5597486A (en) * | 1995-05-01 | 1997-01-28 | Millipore Investment Holdings Limited | Membrane filtration with optimized addition of second liquid to maximize flux |
EP1028163A1 (de) * | 1999-02-10 | 2000-08-16 | Filtrox AG | Verfahren und Vorrichtung zur Crossflow-Mikrofiltration einer Flüssigkeit |
US6420185B1 (en) * | 1999-09-28 | 2002-07-16 | Intel Corporation | Water contamination concentration apparatus and process |
US7022368B2 (en) * | 2001-06-26 | 2006-04-04 | Ocean Spray Cranberries, Inc. | Process for producing sugars and acids-rich juice and phytochemical-rich juice |
US6730343B2 (en) | 2001-09-28 | 2004-05-04 | Yongsoo Chung | Single strength juice deacidification incorporating juice dome |
US7074448B2 (en) * | 2001-09-28 | 2006-07-11 | Tropicana Products, Inc. | Juice deacidification |
WO2004073414A2 (en) * | 2003-01-23 | 2004-09-02 | Goel Prayas | A method for simultaneous clarification and decolourisation of sugarcane juice without using any chemicals for any purpose using flat membrane ultrafiltration module |
CA2536039A1 (en) * | 2003-10-01 | 2005-04-14 | Campbell Soup Company | Process for enzymatic treatment and filtration of a plant and products obtainable thereby |
US20050175760A1 (en) * | 2004-02-10 | 2005-08-11 | Yongsoo Chung | Single strength juice deacidification incorporating juice dome |
EP2175731A4 (en) | 2007-07-13 | 2014-07-02 | Ocean Spray Cranberries Inc | PROCESS FOR PREPARING A PROANTHOCYANIDINE EXTRACT |
EP3142775A2 (en) * | 2014-05-13 | 2017-03-22 | Amgen Inc. | Process control systems and methods for use with filters and filtration processes |
Family Cites Families (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3756408A (en) * | 1972-06-15 | 1973-09-04 | Osmonics Inc | Separation system |
FR2562392A1 (fr) * | 1983-07-07 | 1985-10-11 | Verniers Sa | Installation de production de jus clairs de vegetaux et de recuperation de constituants valorisables |
CH664068A5 (de) * | 1984-08-17 | 1988-02-15 | Bucher Guyer Ag Masch | Verfahren zur gewinnung von fluessigkeit aus bei der entsaftung landwirtschaftlicher produkte anfallenden rueckstaenden und vorrichtungen zur durchfuehrung desselben. |
US4643902A (en) * | 1984-09-07 | 1987-02-17 | The Texas A&M University System | Method of producing sterile and concentrated juices with improved flavor and reduced acid |
CH667373A5 (de) * | 1985-05-22 | 1988-10-14 | Bucher Guyer Ag Masch | Verfahren zur klaerung von fluessigkeiten und anlage zur durchfuehrung desselben. |
-
1987
- 1987-10-02 CH CH3852/87A patent/CH673959A5/de not_active IP Right Cessation
-
1988
- 1988-09-30 US US07/372,376 patent/US5252350A/en not_active Expired - Fee Related
- 1988-09-30 AT AT88908128T patent/ATE69933T1/de not_active IP Right Cessation
- 1988-09-30 DE DE8888908128T patent/DE3866694D1/de not_active Expired - Fee Related
- 1988-09-30 UA UA4614371A patent/UA11240A/uk unknown
- 1988-09-30 WO PCT/CH1988/000177 patent/WO1989002708A1/de active Application Filing
- 1988-09-30 EP EP88908128A patent/EP0333807B1/de not_active Expired - Lifetime
- 1988-09-30 MD MD94-0403A patent/MD373C2/ro unknown
-
1989
- 1989-06-01 RU SU894614371A patent/RU1829912C/ru active
-
1993
- 1993-12-28 LV LVP-93-1382A patent/LV10679B/lv unknown
Also Published As
Publication number | Publication date |
---|---|
EP0333807B1 (de) | 1991-12-04 |
US5252350A (en) | 1993-10-12 |
WO1989002708A1 (en) | 1989-04-06 |
MD373C2 (ro) | 1996-06-30 |
RU1829912C (ru) | 1993-07-23 |
ATE69933T1 (de) | 1991-12-15 |
CH673959A5 (lv) | 1990-04-30 |
UA11240A (uk) | 1996-12-25 |
DE3866694D1 (de) | 1992-01-16 |
EP0333807A1 (de) | 1989-09-27 |
LV10679A (lv) | 1995-06-20 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
LV10679B (en) | Method and apparatus for clarifying of liquids | |
US5693229A (en) | Process and apparatus for thickening of solid liquid mixtures by means of membrane | |
DE69320502T2 (de) | Vorrichtung zum Beseitigen von gasförmigen Blasen, die in einer flüssigen Zusammensetzung enthalten sind | |
ES2055532T3 (es) | Metodo para la preparacion de bebidas. | |
US4861492A (en) | Method of dewatering sewage sludge particularly on recessed plate pressing equipment | |
CA2105220A1 (en) | Coffee Brewer Method and Apparatus | |
EP0208450A3 (en) | Beer filtration | |
US4737283A (en) | Process and apparatus for clarifying liquids | |
ES8608913A1 (es) | Procedimiento y dispositivo para la ultrafiltracion de largaduracion de un liquido | |
US2330986A (en) | Preparation of emulsions | |
IE62869B1 (en) | Method of dephospholipidation of whey | |
EP0400525A3 (en) | Image forming apparatus | |
GB2195352A (en) | Buttermaking process | |
EP0482469B1 (de) | Verfahren und Vorrichtung zur Messung der Wärmeproduktionsrate in einem Reaktor mittels eines Kalorimeters | |
CA2330586A1 (en) | A process for the preparation of colostrum | |
MY108473A (en) | A process for the preparation of wort | |
FR2414188A1 (fr) | Systeme d'electroencephalographe a verification automatique | |
ATE90843T1 (de) | Verfahren zur herstellung von milch-shake. | |
EP0425619B1 (de) | Verfahren und anlage zur klärung von flüssigkeiten, insbesondere rohsaft | |
Ganter et al. | Alkalisierung des Harns zur Metaphylaxe bei Kalziumoxalatsteinen: K-Zitrat vs. Na-K-Zitrat | |
WO1991005847A1 (de) | Verfahren zur klärung von rohsaft sowie anlage zur durchführung des verfahrens | |
US205443A (en) | Improvement in processes for flavoring liquors | |
DE68906888D1 (de) | Verfahren zur herstellung eines nahrungsmittels auf der basis von milchproteinen, fetten und wasser. | |
US253919A (en) | Adolph giesecke and haeey hamlin | |
JP2764840B2 (ja) | 醤油の製成方法 |