LEADER 05541nam 2200673Ia 450 001 9910830090403321 005 20221206101719.0 010 $a1-281-75864-7 010 $a9786611758646 010 $a3-527-61539-3 010 $a3-527-61538-5 035 $a(CKB)1000000000376227 035 $a(EBL)481352 035 $a(SSID)ssj0000142069 035 $a(PQKBManifestationID)11158141 035 $a(PQKBTitleCode)TC0000142069 035 $a(PQKBWorkID)10091431 035 $a(PQKB)11428116 035 $a(MiAaPQ)EBC481352 035 $a(OCoLC)212132991 035 $a(EXLCZ)991000000000376227 100 $a19950210d1995 uy 0 101 0 $aeng 135 $aur|n|---||||| 181 $ctxt 182 $cc 183 $acr 200 00$aDynamics of environmental bioprocesses$b[electronic resource] $emodelling and simulation /$fJonathan B. Snape ... [et al.] 210 $aWeinheim ;$aNew York $cVCH$dc1995 215 $a1 online resource (524 p.) 300 $aDescription based upon print version of record. 311 $a3-527-28705-1 320 $aIncludes bibliographical references and index. 327 $aDynamics of Environmental Bioprocesses; Preface; Organisation of the Book; ISIM Simulation Software; Acknowledgements; Table of Contents; Nomenclature for Chapters 1 and 2; 1 Modelling Principles; 1.1 The Role of Modelling in Environmental Technology; 1.2 General Aspects of the Modelling Approach; 1.3 Model Classification; 1.3.1 Deterministic Models; 1.3.2 Stochastic Models; 1.3.3 Steady-State Models; 1.3.4 Dynamic Models; 1.4 General Modelling Procedure; 1.5 Simulation Tools; 1.6 ISIM; 1.7 Introductory ISIM Example: WASTE; 1.8 Formulation of Dynamic Balance Equations 327 $a1.8.1 Mass Balance Procedures1.8.1.1 Case A . Continuous Stirred-Tank Reactor; 1.8.1.2 Case B . Tubular Reactor; 1.8.1.3 Case C . River with Eddy Current; 1.8.1.4 Rate of Accumulation Term; 1.8.1.5 Convective Flow Terms; 1.8.1.6 Production Rate; 1.8.1.7 Diffusion of Components; 1.8.1.8 Interphase Transport; 1.8.1.9 Case A . Waste Holding Tank: Total and Component Mass Balance Example; 1.8.1.10 Case B . The Plug-Flow Tubular Reactor; 1.8.1.11 Case C . Biological Hazard Room; 1.8.1.12 Case D . Lake Pollution Problem; 1.8.2 Energy Balancing 327 $a1.8.2.1 Case A . Determining Heat Transfer Area or Cooling Water Temperature1.8.2.2 Case B . Heating of a Filling Tank; 1.9 Chemical and Biological Reaction Systems; 1.9.1 Modes of Reactor Operation; 1.9.1.1 Batch Reactors; 1.9.1.2 Semi-Continuous or Fed-Batch Operation; 1.9.1.3 Continuous Operation; 1.9.2 Reaction Kinetics; 1.9.2.1 Chemical Kinetics; 1.9.2.2 Biological Reaction Kinetics; 1.9.2.3 Simple Microbial Growth Kinetics; 1.9.2.4 Substrate Uptake Kinetics; 1.9.2.5 Substrate Inhibition of Growth; 1.9.2.6 Additional Forms of Inhibition; 1.9.2.7 Other Expressions for Specific Growth Rate 327 $a1.9.2.8 Multiple-Substrate Kinetics1.9.2.9 Structured Kinetic Models; 1.9.2.10 Interacting Micro-Organisms; 1.10 Modelling of Bioreactor Systems; 1.10.1 Stirred Tank Reactors; 1.10.2 Modelling Tubular Plug-Flow Reactor Behaviour; 1.10.2.1 Steady-State Balancing; 1.10.2.2 Unsteady-State Balancing; 1.11 Mass Transfer Theory; 1.11.1 Phase Equilibria; 1.11.2 Interphase Mass Transfer; 1.11.2.1 Case A . Steady-State Tubular and Column Modelling; 1.11.3 Case Studies; 1.11.3.1 Case A . Aeration of a Tank of Water; 1.11.3.2 Case B . Biological Oxidation in an Aerated Tank 327 $a1.11.3.3 Case C . Determination of Biological Oxygen Uptake Rates by a Dynamic Method1.11.4 Gas-Liquid Phase Transfer Across a Free Surface; 1.12 Diffusion and Biological Reaction in Solid Phase Biosystems; 1.12.1 External Mass Transfer; 1.12.2 Finite Difference Model for Internal Transfer; 1.12.3 Case Studies for Diffusion with Biological Reaction; 1.12.3.1 Case A . Estimation of Oxygen Diffusion Effects in a Biofilm; 1.12.3.2 Case B . Biofilm Nitrification; 1.13 Process Control; 1.14 Optimisation. Parameter Estimation and Sensitivity Analysis 327 $a1.14.1 Case A . Estimation of Bioreaction Kinetic Parameters for Batch Degradation Using ESL and SIMUSOLV 330 $aDynamic environmental processes are complex; the easiest and most effective way to understanding them lies through the disciplines of dynamic modelling and computer simulation.The prerequisite modelling fundamentals are presented in the first chapter in a manner comprehensible to students as well as to practising scientists and engineers. The second chapter describes the many environmental processes that lend themselves to modelling, for example pollution and wastewater treatment. The third part of the book provides 65 simulation examples both on the page and on an accompanying diskett 606 $aBioremediation$xMathematical models 606 $aWater$xPollution$xMathematical models 606 $aBioremediation$xComputer simulation 606 $aWater$xPollution$xComputer simulation 615 0$aBioremediation$xMathematical models. 615 0$aWater$xPollution$xMathematical models. 615 0$aBioremediation$xComputer simulation. 615 0$aWater$xPollution$xComputer simulation. 676 $a628.168015118 676 $a628.5/01/5118 676 $a628.5015118 701 $aSnape$b Jonathan B$0888200 801 0$bMiAaPQ 801 1$bMiAaPQ 801 2$bMiAaPQ 906 $aBOOK 912 $a9910830090403321 996 $aDynamics of environmental bioprocesses$91984066 997 $aUNINA LEADER 01287nas a2200289 i 4500 001 991002350179707536 005 20231114135247.0 008 070411s1963 it f000 0 ita d 035 $ab13513850-39ule_inst 040 $aDi.S.Te.B.A.$beng 110 1 $aItalia :$bComitato per la documentazione dell'opera dell'Italia in Africa$0423419 229 2$aL'Italia in Africa :$bserie giuridico-amministrativa 245 12$aL'Italia in Africa :$bserie giuridico-amministrativa /$cMinistero degli Affari Esteri, Comitato per la documentazione delle attivita italiane in Africa 260 $aRoma :$bIstituto poligrafico dello Stato,$c1963 300 $axvii, 448 p. ;$c25 cm 500 $aIncludes index 505 1 $gV.1 Pt.I-II: Il$tgoverno dei territori Oltremare (1869-1955) / testi di Cesare Marinucci e Tomaso Columbano 592 $aLE003 1963; 651 0$aItaly$xColonies$zAfrica$xAdministration 710 2$aItalia :$bMinistero degli Affari Esteri 780 01$aL'$tItalia in Africa 907 $a.b13513850$b28-01-14$c11-04-07 912 $a991002350179707536 945 $aLE003 (Fondo SBM)$g1$lle003$o-$pE0.00$q-$rn$so$t18$u0$v0$w0$x0$y.i14427965$z18-04-07 996 $aItalia in Africa$9928218 997 $aUNISALENTO 998 $ale003$b11-04-07$cs$da$e-$fita$git$h2$i0