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ȨÍþ¾µä Bioreaction Engineering principles (Second Edition) ¸½Õä¹ó×ÊÁÏ
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Õâ±¾Êé¿°³ÆÉúÎ﹤³Ì¼¼ÊõÁìÓòµÄȨÍþÖø×÷¡£ËäÓëÉúÎïÓйأ¬µ«ÄÚÈÝÆ«Öع¤³Ì·½ Ã棬ÊÇÉúÎï¼¼ÊõÓ뻯ѧ¹¤³ÌµÄ½»²æÁìÓò¡£ºóÃ渽Óб¾ÊéÓ¡Ë¢´íÎóµÄ¸üÕý£¬´Ë×Ê ÁÏÊÇÖ±½Ó´Ó×÷Õß´¦»ñµÃµÄµÚÒ»ÊÖ×ÊÁÏ¡£ÃÖ×ãÕä¹ó£¬Ô¸Óë¸÷λ·ÖÏí¡£´Ë´¦ËäÌṩ µç×Ó°æÏÂÔØ£¬µ«Èç¹û¸÷λ·¢ÏÖÕâ±¾ÊéºÜºÃ»¹Ç빺ÂòÕý°æÊé¼®£¬×ðÖØ×÷ÕßÀͶ¯¡£ Õâ±¾ÊéÎÒʵÔÚ²»ÖªµÀ¸Ã·¢ÔÚÄĸö°æ²ÅºÃ£¬Éú»¯ËƺõÕ´±ß£¬µ«ÊÇÕâ¸ö¸ü¶àµÄÈ´ÊÇ ¹¤³Ì·½ÃæµÄ¶«Î÷¡£Ö»ºÃÏÈ·¢ÔÚÕâ¸ö°æÁË¡£°æÖ÷¾õµÃÓÐʲô¸üºÃµÄÑ¡ÔñÔÙתµ½Æä Ëû°æ°É¡£  Bioreaction Engineering Principles(Second Edition) Biotechnology is a rapidly moving field, which builds on the competence and interplay of many different disciplines; biochemistry, microbiology, molecular biology and chemical engineering. The quantitative treatment of biological processes is today a prerequisite for both the design of new bioprocesses and the analysis of cellular function.The present text is an extensively revised edition of the textbook first published in 1994. The quantitative treatment of bioprocesses is a central theme in this book. The book has been restructured to make it more easily accessible to the reader, the material has been updated and several new topics have been added in the text.The focus is on the bioreactor and the processes that occur in the reactor, i.e. the coupling between the reactions occurring in the cell and its environment. The microbial cellular metabolism is the starting point in the treatment. Tools for the quantitative analysis of cellular functions - macroscopic mass balancing, thermodynamics of microbial processes, metabolic network analysis and kinetic modelling - are gradually introduced. After analysis of the cellular reactor, the interaction between the cell and its environment is treated in chapters concerning mass transfer and design of bioprocesses. Finally, the complex subject of scale-up is presented.The book combines, in a rather unique way, a quantitative treatment of physiology at the cellular level with a treatment of the bioreactor and interaction between the cellular reactor and the bioreactor. Many examples and problems are used to illustrate important concepts in the text. The following part is the misprints I received from the author. It is really rare and valuable. Please do not misuse. ´This is a list of misprints in ¡°Bioreaction Engineering Principles¡±, 2. Ed (2002). The list has last been updated on November 1, 2005. It will be up-dated continuously when we find more misprints Jens Nielsen, John Villadsen and Gunnar Lid¨¦n. p. 36 Figure 2.8 : A number of last letters has disappeared (Cephalosporin, Cephamycin, biosynthesis.) p.49 line under Eq(3.1): Correct ¡°space-time¡± to ¡°space-velocity¡± p.61 Eq(3.26): The coefficient on NH3 should be 1/5. p.62 : The degree of reduction of urea (NH2-CO-NH2) should be 0. p.69 line13b : slope is 30.0 ¡ú slope is 33¡Yxc = 25.17*0.033 = 0.82¡ p.55, Table 3.1: The formula weight of RNA is 26.0 g (C-mole)-1. p.88 line 2b . ..25¦ÌM. At 30oC and ¦Ðo = 1 atm so* = 1.16 mM. p.89 line 15b¡ question 6¡úquestion a, and (question 4)¡ú(question d). p.90 line 6: Correct ¡°The yield Ysx is that calculated above¡± to ¡°The yields Ysx and Ysn are the same as in question b.¡± p.91 Insert a minus sign in front of CH2O(HAc), and thye¡úthe. p.110 Figure 4.1 has been mishandled. 1. Insert Fumarate as the product from Succinate. 2. The input is NADH (and not NAD). 3. The enzyme is ATPase, and it converts ADP to ATP when H+ is transported back to the mitochondria. 4. The arrow pointing to O2 is misleading-the figure text tells the correct story. p.127 line 1 ms ¡ú mATP p.124 : One line is missing after Eq(5.2): ¡°where TATP is a column vector containing all the stoichiometric coefficients for ATP, i.e, it is the¡¡± p.138 line 4: Eqs(7) and (8)¡ú Eqs(6) and (7) p.139 Eq.(4). The upper equation should read : 2(-ro) = 2 v2 + 0.1 v1. p.143 Figure at bottom of the page: NADH is converted to NAD. p.147 line 10b : correct rac to ra (twice) p.161: (see also Note 5.4)¡ú(see also Note 5.5) p.171 The section numbering should be 5.4.3 p.185 The answers quoted are valid if Ys,ATP = 1/3 in v3 p.186 Reference to Christiansen, T, and Nielsen, J: Bioproc.Biosystems.Eng.24, 329-339 Reference to van Rolleghem and Heijnen, Biotechnol.Bioeng.(1998), 58, 133-138. p.193 Delete the footnote (the story may be apocryphal) p.200 Figure text: Correct competitive to non-competitive. p.308-309. There are several errors in the text of Problem 7.3. 1. Eq.(1): The KS in the denominator should be K2 . 2. Text below eq.(1): K1= K11K12K13K14 (the first index is erroneously printed as a ¡°4¡±). 3. Just below the definition of K1: Correct the last ¡Ö to <<. 4. Above eq.1: Correct K44 to K2 (i.e. K41=K42=K43=K2). p.358 line 1 from top: X = x/(sf Ysxtrue). Also Figure 9.3 D is wrong. One should depict Ysxtruesf S/(S + b(S + a))/qx against S in order to obtain an ordinate that is ¦Ì-1(1-S)-1. But now Figure 9.3 D becomes identical to Figure 9.3 A. Consequently the same ¦Ómin is obtained, but the biomass yield is of course lower than for no maintenance. p.370 last line : (24.6/30) ; change to (30/24.6). The answer 0.02114 is correct. p.382 Eq.(9.88 b): Add a term Ysx sf on the right hand side of the equation. p.391 Eq.(9.105), inside the ¡Ì : Change sign in front of D to a minus sign. p.409 line 10b: V¡úV1 p.414 line 9 from top: Change to ¦Âs = Ysxtrue ms. p.429 formula (10.11). The exponent on the last factor is 1/3 p.448 Table 10.8: The solubility at 40oC is 1.03 mmoles L-1 p.452 Eq.(12): Change c*o(DOT ¨C 1) to (co ¨Cc*o). p. 465 Eq (10.52) incorrect. Should read p.472 line 5: ¦Ìmax¡ú ro,max p.584 Left hand expression of Eq(2): The denominator should read s¡Þ - so. p.510 One line in the table is wrong (reciprocal numbers were erroneously inserted) Hence, correct the tc line to : 1 2.94 1 5 25. p. 513 Eq(1): The stoichiometric coefficient of biomass should be 0. 456. p. 514. Problem 11.1., third sentence. Should be: "Suppose now instead that the impeller diameter of the 1 m3 reactor is chosen.." ÏÂÔØÁ´½Ó http://rapidshare.de/files/33405 ... ring_Principles.rar [ Last edited by valuk on 2006-9-17 at 21:40 ] |
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