Changeset 91
- Timestamp:
- 05/27/11 20:26:10 (14 years ago)
- Files:
-
- studiarbeit/Ausarbeitung.bbl (modified) (3 diffs)
- studiarbeit/Versuchsbeschreibung.tex (modified) (1 diff)
- studiarbeit/biblio.bib (modified) (21 diffs)
- studiarbeit/bilder/surfactant_plots/Brij97.vsz (modified) (4 diffs)
- studiarbeit/bilder/surfactant_plots/Brij97_Salinity.vsz (modified) (2 diffs)
- studiarbeit/bilder/surfactant_plots/BrijS20.vsz (modified) (2 diffs)
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studiarbeit/Ausarbeitung.bbl
r88 r91 3 3 \bibitem[{Ber}]{Aha} 4 4 {Bernd Stefan Aha}. 5 \newblock Biologisch abbaubare tenside aus nachwachsenden rohstoffen: N-:6 Synthesen und tensideigenschaften.5 \newblock {Biologisch abbaubare Tenside aus nachwachsenden Rohstoffen: N-: 6 Synthesen und Tensideigenschaften}. 7 7 \newblock 1999. 8 8 9 9 \bibitem[CM93]{Cohen} 10 10 Robert Cohen and James Mercer. 11 \newblock Dnapl site evaluation.11 \newblock {DNAPL Site Evaluation}. 12 12 \newblock 1993. 13 13 14 14 \bibitem[D.C04]{Childs} 15 15 Jeffrey D.Childs. 16 \newblock Improving the extraction of tetrachloroethylene from soil colummns17 using surfactant gradient systems .16 \newblock {Improving the extraction of tetrachloroethylene from soil colummns 17 using surfactant gradient systems}. 18 18 \newblock {\em Journal of Contaminant Hydrology 71 (2004)}, (71):27--45, 2004. 19 20 \bibitem[DH]{Danzer}21 J{\"o}rg Danzer and Mike Herbert.22 \newblock altlastenforum-tenside{\_}zur{\_}in-situ-sanierung.pdf: Stand der23 technik, planung und implementierung.24 \newblock 2000.25 19 26 20 \bibitem[Dre02]{Drelich} 27 21 I.~Drelich. 28 \newblock Measurement of interfacial tension in fluid-fluid systems.22 \newblock {Measurement of interfacial tension in fluid-fluid systems}. 29 23 \newblock {\em Encyclopedia of Surface and Colloid Science}, pages 3152--3166, 30 24 2002. … … 32 26 \bibitem[Fal]{Falta} 33 27 Ronald~W: Falta. 34 \newblock Using phase diagrams to predict the performance of cosolvent floods35 for napl remediation.28 \newblock {Using Phase Diagrams to Predict the Performance of Cosolvent Floods 29 for NAPL Remediation}. 36 30 \newblock {\em Ground Water Monitoting Remediation}, pages 94--102. 37 31 38 32 \bibitem[{Han}]{Stupp} 39 33 {Hans Dieter Stupp}. 40 \newblock Dnapl in boden und grundwasser verhalten von lckw und pak-{\"o}len.34 \newblock {DNAPL in Boden und Grundwasser Verhalten von LCKW und PAK-{\"O}len}. 41 35 42 36 \bibitem[Hed04]{Hedinger} 43 37 Hedinger. 44 \newblock Sicherheitsdatenblatt cs2.38 \newblock {Sicherheitsdatenblatt CS2}. 45 39 \newblock 2004. 46 40 47 41 \bibitem[Kit66]{Kitahara} 48 42 Ayao Kitahara. 49 \newblock Mechanism of solubilization of water in nonpolar solutions of50 oil-soluble surfactants: Effect of electrolytes.43 \newblock {Mechanism of Solubilization of Water in Nonpolar Solutions of 44 Oil-Soluble Surfactants: Effect of Electrolytes}. 51 45 \newblock {\em The Journl of Physical Chemistry}, (11):3394--3398, 1966. 52 46 53 47 \bibitem[Kun96]{Kunieda} 54 48 Hironobu Kunieda. 55 \newblock Effect of added salt on the maximum solubilization in an56 ionic-surfactant microemulsion.49 \newblock {Effect of Added Salt on the Maximum Solubilization in an 50 Ionic-Surfactant Microemulsion}. 57 51 \newblock {\em Langmuir}, (24):5795--5799, 1996. 58 52 59 53 \bibitem[L{\"a}c]{Lachler} 60 54 Wolf L{\"a}chler. 61 \newblock Vorlesungsskript umweltgeologie.55 \newblock {Vorlesungsskript Umweltgeologie}. 62 56 63 57 \bibitem[Mem07]{Memminger} 64 58 Birgit Memminger. 65 \newblock {\em Aufbereitung von Sp{\"u}lw{\"a}ssern bei der hydraulischen66 In-situ Sanierung} .59 \newblock {\em {Aufbereitung von Sp{\"u}lw{\"a}ssern bei der hydraulischen 60 In-situ Sanierung}}. 67 61 \newblock Oldenbourg Industrieverlag, 2007. 68 62 69 63 \bibitem[Mer11]{Merck} 70 64 Merck. 71 \newblock Sicherheitsdatenblatt cs2.65 \newblock {Sicherheitsdatenblatt CS2}. 72 66 \newblock 2011. 73 67 74 68 \bibitem[Pro]{EPA} 75 69 U.S. EPA Technology~Innovation Program. 76 \newblock Site characterization technologies for dnapl investigations.70 \newblock {Site Characterization Technologies for DNAPL Investigations}. 77 71 78 72 \bibitem[Sab00]{Sabatini} 79 73 David~A. Sabatini. 80 \newblock Integrated design of surfactant enhanced dnapl remediation: efficient81 supersolubilization and gradient systems.74 \newblock {Integrated design of surfactant enhanced DNAPL remediation: 75 efficient supersolubilization and gradient systems}. 82 76 \newblock {\em Journal of Contaminant Hydrology 45 2000. 99--121}, pages 83 77 99--121, 2000. … … 85 79 \bibitem[Sai76]{Saito} 86 80 S.~Saito. 87 \newblock F{\"a}llung nichtionogener tenside durch polymers{\"a}uren:88 Zusatzeffekt anorganischer salze und s{\"a}ure.81 \newblock {F{\"a}llung nichtionogener Tenside durch Polymers{\"a}uren: 82 Zusatzeffekt anorganischer Salze und S{\"a}ure}. 89 83 \newblock {\em Colloid and Polymer Science}, (10):882--889, 1976. 90 84 91 85 \bibitem[Sch]{Schneider} 92 86 Schneider. 93 \newblock Vorlesungsskript physikalische chemie ii: Viskosit{\"a}t.87 \newblock {Vorlesungsskript Physikalische Chemie II: Viskosit{\"a}t}. 94 88 95 89 \bibitem[SP04]{St-Pierre} 96 90 Chantal St-Pierre. 97 \newblock Tcerecovery mechanisms using micellar and alcohol solutions: phase98 diagrams and sand column experiments .91 \newblock {TCE recovery mechanisms using micellar and alcohol solutions: phase 92 diagrams and sand column experiments}. 99 93 \newblock {\em Journal of Contaminant Hydrology}, 71(1-4):155--192, 2004. 94 95 \bibitem[uMH]{Danzer} 96 J{\"o}rg~Danzer und Mike~Herbert. 97 \newblock {Tenside zur In-Situ-Sanierung: Stand der Technik, Planung und 98 Implementierung}. 99 \newblock 2000. 100 100 101 101 \bibitem[ZR00]{Zhou} 102 102 Meifang Zhou and R.~Dean Rhue. 103 \newblock Screening commercial surfactants suitable for remediating dnapl104 source zones by solubilization $\dagger$.103 \newblock {Screening Commercial Surfactants Suitable for Remediating DNAPL 104 Source Zones by Solubilization $\dagger$}. 105 105 \newblock {\em Environmental Science {\&} Technology}, 34(10):1985--1990, 2000. 106 106 studiarbeit/Versuchsbeschreibung.tex
r89 r91 156 156 %wurde eine gasdichte 100 µl-Spritze bzw. für die Dichtebestimmung eine 2,5 ml-Spritze verwendet. 157 157 158 \section{Versuch 2: Einstellen der optimalen Tensidkonzentration}158 \section{Versuchsreihe 2: Einstellen der optimalen Tensidkonzentration} 159 159 160 160 \subsection{Versuchsdurchführung} studiarbeit/biblio.bib
r88 r91 2 2 author = {Robert Cohen and James Mercer}, 3 3 year = {1993}, 4 title = { DNAPL Site Evaluation},4 title = {{DNAPL Site Evaluation}}, 5 5 keywords = {gravity, capillary pressure, hydrodynamic force, geologic conditions,} 6 6 } … … 9 9 @article{Falta, 10 10 author = {Ronald W: Falta}, 11 title = { Using Phase Diagrams to Predict the Performance of Cosolvent Floods for NAPL Remediation},11 title = {{Using Phase Diagrams to Predict the Performance of Cosolvent Floods for NAPL Remediation}}, 12 12 pages = {94--102}, 13 13 journal = {Ground Water Monitoting Remediation} … … 16 16 17 17 @article{Danzer, 18 author = {J{\"o}rg Danzer and Mike Herbert},19 title = { altlastenforum-Tenside{\_}zur{\_}In-Situ-Sanierung.pdf: Stand der Technik, Planung und Implementierung},18 author = {J{\"o}rg Danzer und Mike Herbert}, 19 title = {{Tenside zur In-Situ-Sanierung: Stand der Technik, Planung und Implementierung}}, 20 20 keywords = {Wirkungsweise von Tensiden, Solubilisierung, Mobilisierung, Sorbtionssperre, Vorraussetzungen, Verfahrensgrenzen, Erfahrungen, Effizienz, Vorteile, Risiken, Genehmigungsanforderungen, Entwicklungsperspektiven}, 21 21 volume = {2000} 22 number = {3}, 23 journal = {Schriftenreihe Altlastenforum Baden Württemberg e.v.} 22 24 } 23 25 … … 25 27 @misc{EPA , 26 28 author = {U.S. EPA Technology Innovation Program}, 27 title = { Site Characterization Technologies for DNAPL Investigations}29 title = {{Site Characterization Technologies for DNAPL Investigations}} 28 30 } 29 31 … … 32 34 author = {Zhou, Meifang and Rhue, R. Dean}, 33 35 year = {2000}, 34 title = { Screening Commercial Surfactants Suitable for Remediating DNAPL Source Zones by Solubilization $\dagger$},36 title = {{Screening Commercial Surfactants Suitable for Remediating DNAPL Source Zones by Solubilization $\dagger$}}, 35 37 pages = {1985--1990}, 36 38 volume = {34}, … … 44 46 author = {S. Saito}, 45 47 year = {1976}, 46 title = { F{\"a}llung nichtionogener Tenside durch Polymers{\"a}uren: Zusatzeffekt anorganischer Salze und S{\"a}ure},48 title = {{F{\"a}llung nichtionogener Tenside durch Polymers{\"a}uren: Zusatzeffekt anorganischer Salze und S{\"a}ure}}, 47 49 pages = {882--889}, 48 50 number = {10}, … … 54 56 author = {Chantal St-Pierre}, 55 57 year = {2004}, 56 title = { TCE recovery mechanisms using micellar and alcohol solutions: phase diagrams and sand column experiments},58 title = {{TCE recovery mechanisms using micellar and alcohol solutions: phase diagrams and sand column experiments}}, 57 59 pages = {155--192}, 58 60 volume = {71}, … … 67 69 author = {Ayao Kitahara}, 68 70 year = {1966}, 69 title = { Mechanism of Solubilization of Water in Nonpolar Solutions of Oil-Soluble Surfactants: Effect of Electrolytes},71 title = {{Mechanism of Solubilization of Water in Nonpolar Solutions of Oil-Soluble Surfactants: Effect of Electrolytes}}, 70 72 pages = {3394--3398}, 71 73 number = {11}, … … 77 79 author = {I. Drelich}, 78 80 year = {2002}, 79 title = { Measurement of interfacial tension in fluid-fluid systems},81 title = {{Measurement of interfacial tension in fluid-fluid systems}}, 80 82 pages = {3152--3166}, 81 83 journal = {Encyclopedia of Surface and Colloid Science} … … 86 88 author = {Jeffrey D.Childs}, 87 89 year = {2004}, 88 title = { Improving the extraction of tetrachloroethylene from soil colummns using surfactant gradient systems},90 title = {{Improving the extraction of tetrachloroethylene from soil colummns using surfactant gradient systems}}, 89 91 pages = {27--45}, 90 92 number = {71}, … … 96 98 author = {David A. Sabatini}, 97 99 year = {2000}, 98 title = { Integrated design of surfactant enhanced DNAPL remediation: efficient supersolubilization and gradient systems},100 title = {{Integrated design of surfactant enhanced DNAPL remediation: efficient supersolubilization and gradient systems}}, 99 101 pages = {99--121}, 100 102 journal = {Journal of Contaminant Hydrology 45 2000. 99--121} … … 105 107 author = {Hironobu Kunieda}, 106 108 year = {1996}, 107 title = { Effect of Added Salt on the Maximum Solubilization in an Ionic-Surfactant Microemulsion},109 title = {{Effect of Added Salt on the Maximum Solubilization in an Ionic-Surfactant Microemulsion}}, 108 110 pages = {5795--5799}, 109 111 number = {24}, … … 115 117 author = {Merck}, 116 118 year = {2011}, 117 title = { Sicherheitsdatenblatt CS2}119 title = {{Sicherheitsdatenblatt CS2}} 118 120 } 119 121 … … 121 123 @article{Aha, 122 124 author = {{Bernd Stefan Aha}}, 123 title = { Biologisch abbaubare Tenside aus nachwachsenden Rohstoffen: N-: Synthesen und Tensideigenschaften},125 title = {{Biologisch abbaubare Tenside aus nachwachsenden Rohstoffen: N-: Synthesen und Tensideigenschaften}}, 124 126 volume = {1999} 125 127 } … … 129 131 author = {Hedinger}, 130 132 year = {2004}, 131 title = { Sicherheitsdatenblatt CS2}133 title = {{Sicherheitsdatenblatt CS2}} 132 134 } 133 135 … … 135 137 @misc{Schneider, 136 138 author = {Schneider}, 137 title = { Vorlesungsskript Physikalische Chemie II: Viskosit{\"a}t},139 title = {{Vorlesungsskript Physikalische Chemie II: Viskosit{\"a}t}}, 138 140 url = {http://www2.uni-siegen.de/~pciii/PC22.pdf}, 139 141 editor = {Universit{\"a}t Siegen, Arbeitsgruppe Physikalische Chemie} … … 144 146 author = {Memminger, Birgit}, 145 147 year = {2007}, 146 title = { Aufbereitung von Sp{\"u}lw{\"a}ssern bei der hydraulischen In-situ Sanierung},148 title = {{Aufbereitung von Sp{\"u}lw{\"a}ssern bei der hydraulischen In-situ Sanierung}}, 147 149 url = {http://books.google.de/books?id=rRs0HzdGZJMC}, 148 150 publisher = {Oldenbourg Industrieverlag}, … … 153 155 @misc{Stupp, 154 156 author = {{Hans Dieter Stupp}}, 155 title = { DNAPL in Boden und Grundwasser Verhalten von LCKW und PAK-{\"O}len},157 title = {{DNAPL in Boden und Grundwasser Verhalten von LCKW und PAK-{\"O}len}}, 156 158 url = {http://www.google.de/imgres?imgurl=http://www.dscweb.de/Publikationen/DNAPL}, 157 159 urldate = {13.05.2011} … … 161 163 @misc{Lachler, 162 164 author = {L{\"a}chler, Wolf}, 163 title = { Vorlesungsskript Umweltgeologie},165 title = {{Vorlesungsskript Umweltgeologie}}, 164 166 editor = {{Institut f{\"u}r Geotechnik Universit{\"a}t Stuttgart}} 165 167 } … … 169 171 author = {{Neil Saunders}}, 170 172 year = {Sun Apr 13 18:04:09 2008}, 171 title = { What is the mechanism of 'salting-out' or 'salting in'},173 title = {{What is the mechanism of 'salting-out' or 'salting in'}}, 172 174 url = {http://www.madsci.org/posts/archives/2008-04/1208150541.Bc.r.html}, 173 175 urldate = {19.05.2011} … … 178 180 author = {{Derek R. Young}}, 179 181 year = {1994}, 180 title = { Salt Precipitation for Proteins: Introduction to Biochemical Engineering},182 title = {{Salt Precipitation for Proteins: Introduction to Biochemical Engineering}}, 181 183 url = {http://www.rpi.edu/dept/chem-eng/Biotech-Environ/PRECIP/precpsalt.html}, 182 184 urldate = {19.05.2011} studiarbeit/bilder/surfactant_plots/Brij97.vsz
r90 r91 40 40 To(u'yCDS') 41 41 Set('hide', False) 42 Set('label', u'Konzentration CS_{2}(g L{^-1})')42 Set('label', u'Konzentration (g L{^-1})') 43 43 Set('max', 'Auto') 44 44 Set('autoExtend', True) … … 114 114 Add('label', name='label1', autoadd=False) 115 115 To('label1') 116 Set('label', u'Konzentration ')116 Set('label', u'Konzentration CS_{2}') 117 117 Set('xPos', [0.05]) 118 118 Set('yPos', [0.95]) … … 531 531 Add('axis', name=u'ySigma', autoadd=False) 532 532 To(u'ySigma') 533 Set('label', u'O berflaechenspannung(mN m{^-1})')533 Set('label', u'OFS (mN m{^-1})') 534 534 Set('min', 20.0) 535 535 Set('max', 80.0) … … 709 709 Add('axis', name=u'ySigma', autoadd=False) 710 710 To(u'ySigma') 711 Set('label', u' Dyn.Viskositaet (mPa s)')711 Set('label', u'Viskositaet (mPa s)') 712 712 Set('min', 'Auto') 713 713 Set('max', 4.0) studiarbeit/bilder/surfactant_plots/Brij97_Salinity.vsz
r90 r91 40 40 To(u'yCDS') 41 41 Set('hide', False) 42 Set('label', u' CS_{2}-Konzentration (g L{^-1})')42 Set('label', u'Konzentration (g L{^-1})') 43 43 Set('max', 'Auto') 44 44 Set('autoExtend', True) … … 643 643 Add('axis', name=u'ySigma', autoadd=False) 644 644 To(u'ySigma') 645 Set('label', u'O berflaechenspannung(mN m{^-1})')645 Set('label', u'OFS (mN m{^-1})') 646 646 Set('min', 30.0) 647 647 Set('max', 45.0) studiarbeit/bilder/surfactant_plots/BrijS20.vsz
r90 r91 126 126 To(u'yCDS') 127 127 Set('hide', False) 128 Set('label', u'Konzentration CS_{2}(g L{^-1})')128 Set('label', u'Konzentration (g L{^-1})') 129 129 Set('max', 'Auto') 130 130 Set('autoExtend', True) … … 382 382 Add('axis', name=u'ySigma', autoadd=False) 383 383 To(u'ySigma') 384 Set('label', u'O berflaechenspannung(mN m{^-1})')384 Set('label', u'OFS (mN m{^-1})') 385 385 Set('min', 30.0) 386 386 Set('max', 50.0)