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Book Categories |
Ch. 1 | The nature of chemical process design and integration | 1 |
Ch. 2 | Process economics | 17 |
Ch. 3 | Optimization | 35 |
Ch. 4 | Thermodynamic properties and phase equilibrium | 57 |
Ch. 5 | Choice of reactor I - reactor performance | 77 |
Ch. 6 | Choice of reactor II - reactor conditions | 97 |
Ch. 7 | Choice of reactor III - reactor configuration | 121 |
Ch. 8 | Choice of separator for heterogeneous mixtures | 143 |
Ch. 9 | Choice of separator for homogeneous fluid mixtures I - distillation | 157 |
Ch. 10 | Choice of separator of homogeneous fluid mixtures II - other methods | 181 |
Ch. 11 | Distillation sequencing | 211 |
Ch. 12 | Distillation sequencing for azeotropic distillation | 235 |
Ch. 13 | Reaction, separation and recycle systems for continuous processes | 259 |
Ch. 14 | Reaction, separation and recycle systems for batch processes | 291 |
Ch. 15 | Heat exchanger networks I - heat transfer equipment | 317 |
Ch. 16 | Heat exchanger networks II - energy targets | 357 |
Ch. 17 | Heat exchanger networks III - capital and total cost targets | 387 |
Ch. 18 | Heat exchanger networks IV - network design | 399 |
Ch. 19 | Heat exchanger networks V - stream data | 429 |
Ch. 20 | Heat integration of reactors | 439 |
Ch. 21 | Heat integration of distillation columns | 445 |
Ch. 22 | Heat integration of evaporators and dryers | 459 |
Ch. 23 | Steam systems and cogeneration | 465 |
Ch. 24 | Cooling and refrigeration systems | 513 |
Ch. 25 | Environmental design for atmospheric emissions | 551 |
Ch. 26 | Water system design | 581 |
Ch. 27 | Inherent safety | 625 |
Ch. 28 | Clean process technology | 635 |
Ch. 29 | Overall strategy for chemical process design and integration | 649 |
App. A | Annualization of capital cost | 653 |
App. B | Gas compression | 655 |
App. C | Heat transfer coefficients and pressure drop in shell-and-tube heat exchangers | 661 |
App. D | The maximum thermal effectiveness for 1-2 shell-and-tube heat exchangers | 667 |
App. E | Expression for the minimum number of 1-2 shell-and-tube heat exchangers for a given unit | 669 |
App. F | Algorithm for the heat exchanger network area target | 671 |
App. G | Algorithm for the heat exchanger network number of shells target | 673 |
App. H | Algorithm for heat exchanger network capital cost targets | 677 |
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Add Chemical Process Design: For the Efficient Use of Resources and Reduced Environmental Impact, This book deals with the design and integration of chemical processes, emphasizing the conceptual issues that are fundamental to the creation of the process. Chemical process design requires the selection of a series of processing steps and their integrat, Chemical Process Design: For the Efficient Use of Resources and Reduced Environmental Impact to the inventory that you are selling on WonderClubX
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Add Chemical Process Design: For the Efficient Use of Resources and Reduced Environmental Impact, This book deals with the design and integration of chemical processes, emphasizing the conceptual issues that are fundamental to the creation of the process. Chemical process design requires the selection of a series of processing steps and their integrat, Chemical Process Design: For the Efficient Use of Resources and Reduced Environmental Impact to your collection on WonderClub |