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Author

Kemp, Ian C., author.

Title Pinch analysis for energy and carbon footprint reduction : user guide to process integration for the efficient use of energy / Ian C. Kemp, Jeng Shiun Lim.

Publication Info.

Kidlington, Oxford : Butterworth-Heinemann, 2020.

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Available to Pittsburg State University patrons only.

Copies

Location	Call No.	OPAC Message	Status
Axe Elsevier ScienceDirect Ebook	Electronic Book	---	Available

Edition	Third edition.
Description	1 online resource
	text txt rdacontent
	computer c rdamedia
	online resource cr rdacarrier
Series	IChemE
	Butterworth-Heinemann/IChemE series.
Bibliography	Includes bibliographical references and index.
Note	Online resource; title from PDF title page (ScienceDirect, viewed August 20, 2020).
Contents	1. Introduction -- 1.1 What is pinch analysis -- 1.2 Historical development and industrial experience -- 1.3 Why does pinch analysis work -- 1.4 The concept of process synthesis -- 1.5 Hierarchy of energy reduction -- 1.6 The role of thermodynamics in process design -- 1.7 Learning and applying the techniques -- 1.8 A note on terminology -- 2. Carbon footprint and primary energy -- 2.1 Introduction -- 2.2 Definition of carbon footprint -- 2.3 Primary energy -- 2.4 Carbon dioxide emissions and carbon footprint -- 2.5 Components of carbon footprint -- 2.6 Carbon pinch and emissions targeting -- 2.7 Energy costs -- 2.8 Conclusions -- 3. Key concepts of pinch analysis -- 3.1 Heat recovery and heat exchange -- 3.2 The pinch and its significance -- 3.3 Heat exchanger network design -- 3.4 Choosing [delta]Tmin: supertargeting -- 3.5 Methodology of pinch analysis -- 3.6 Worked exercise -- 4. Data extraction and energy targeting -- 4.1 Data extraction -- 4.2 Case study -- organics distillation plant -- 4.3 Energy targeting -- 4.4 Multiple utilities -- 4.5 More advanced energy targeting -- 4.6 Targeting heat exchange units, area and shells -- 4.7 Supertargeting; cost targeting for optimal [delta]Tmin -- 4.8 Targeting for organics distillation plant case study -- 4.9 Exercises -- Appendix -- Algorithms for Problem Table and composite curves -- 5. Heat exchanger network design -- 5.1 Introduction -- 5.2 Heat exchange equipment -- 5.3 Stream splitting and cyclic matching -- 5.4 Network relaxation -- 5.5 More complex designs -- 5.6 Multiple pinches and near-pinches -- 5.7 Retrofit design -- 5.8 Operability; multiple base case design -- 5.9 Network design for organics distillation case study -- 5.10 Conclusions -- 5.11 Exercises -- 6. Utilities, heat and power systems -- 6.1 Concepts -- 6.2 Combined heat and power systems -- 6.3 Heat pumps and refrigeration systems -- 6.4 Total site analysis -- 6.5 Worked example -- organics distillation unit -- 6.6 Worked case study and example for total site problem table algorithm -- 6.7 Case studies and examples -- 6.8 Exercises -- 7. Process change and evolution -- 7.1 Concepts -- 7.2 General principles -- 7.3 Reactor systems -- 7.4 Distillation columns -- 7.5 Evaporator systems -- 7.6 Flash systems -- 7.7 Solids drying -- 7.8 Other separation methods -- 7.9 Application to the organics distillation process case study -- 7.10 Summary and conclusions -- 7.11 Exercises -- 8. Batch and time-dependent processes -- 8.1 Introduction -- 8.2 Concepts -- 8.3 Types of streams in batch processes -- 8.4 Time intervals -- 8.5 Calculating energy targets -- 8.6 Heat exchanger network design -- 8.7 Rescheduling -- 8.8 Debottlenecking -- 8.9 Other time-dependent applications -- 8.10 Conclusions -- 9. Water, hydrogen, and carbon pinch -- 9.1 Introduction -- 9.2 Concepts -- 9.3 Key steps in mass pinch analysis -- 9.4 Application and case study for water pinch analysis (Glove Industry) -- 9.5 Application and case study for hydrogen pinch analysis -- 9.6 Conclusions for water and hydrogen pinch analysis -- 9.7 Carbon pinch -- 10. Applying the technology in practice -- 10.1 Introduction -- 10.2 How to do a pinch study -- 10.3 Heat and mass balance -- 10.4 Stream data extraction -- 10.5 Targeting and network design -- 10.6 Project evaluation and costing -- 10.7 Targeting software -- 10.8 Exercises -- 11. Industrial experience -- 11.1 Overview -- 11.2 Oil refining -- 11.3 Bulk chemicals -- continuous -- 11.4 Speciality and batch chemicals and pharmaceuticals -- 11.5 Pulp and paper -- 11.6 Food and beverage -- 11.7 Consumer products and textiles -- 11.8 Minerals and metals -- 11.9 Heat and power utilities -- 11.10 Buildings -- 11.11 Waste processing and sewage -- 12. Case studies -- 12.1 Introduction -- 12.2 Crude preheat train -- 12.3 Aromatics plant -- 12.4 Evaporator/dryer plant -- 12.5 Organic chemicals manufacturing site -- 12.6 Food processing plant -- 12.7 Hospital site -- 12.8 Conclusions -- 12.9 Exercises -- 13. Conclusions -- Notation -- Further reading -- Appendix 1. Using the spreadsheet software -- Appendix 2. Answers to selected exercises -- Index.
Subject	Chemical plants -- Energy conservation.
	Chemical processes.
	Chemical process control.
	Usines chimiques -- �conomies d'�nergie.
	Proc�d�s chimiques.
	Proc�d�s chimiques -- Contr�le.
	Chemical plants -- Energy conservation
	Chemical process control
	Chemical processes
Added Author	Lim, Jeng Shium, editor.
Other Form:	Print version : 9780081025369
ISBN	9780081025369
	008102536X
	9780081025376 (electronic book)
	0081025378 (electronic book)
Standard No.	AU@ 000067877740
	UKMGB 019848829
	AU@ 000074353805