Handbook of Process Integration (PI): Minimisation of Energy and Water Use, Waste and Emissions, Second Edition

  • 22h 8m
  • Jiří Jaromír Klemeš
  • Elsevier Science and Technology Books, Inc.
  • 2023

Handbook of Process Integration (PI): Minimisation of Energy and Water Use, Waste and Emissions, Second Edition provides an up-to-date guide on the latest PI research and applications. Since the first edition published, methodologies and sustainability targets have developed considerably. Each chapter has been fully updated, with six new chapters added in this release, covering emissions, transport, water scarcity, reliability and maintenance, environmental impact and circular economy. This version also now includes worked examples and simulations to deepen the reader’s understanding.

With its distinguished editor and international team of expert contributors, this book is an important reference work for managers and researchers in all energy and sustainability industries, as well as academics and students in Energy, Chemical, Process, and Environmental Engineering.

  • Provides a fully updated handbook with six new chapters that reflect the latest research and applications on process integration
  • Reviews a wide range of process design and integration topics, ranging from heat and utility systems to water, recycling, waste and hydrogen systems
  • Covers equipment design and operability issues, with a strong extension to environmental engineering and suitability issues

About the Author

Prof Dr-Hab Jiří Jaromír KLEMEŠ, DSc, Dr h c (mult) and George Pólya Professor. Head of a Centre of Excellence “Sustainable Process Integration Laboratory – SPIL”, NETME Centre, Faculty of Mechanical Engineering, Brno University of Technology - VUT Brno, Czech Republic. Previously the Project Director, Senior Project Officer and Hon Reader at Department of Process Integration at UMIST, The University of Manchester and the University of Edinburgh, UK Founder and a long-term Head of the Centre for Process Integration and Intensification – CPI2, University of Pannonia, Veszprém, Hungary. Awarded by the EC with Marie Curie Chair of Excellence (EXC). Track record of managing and coordinating 97 major EC, NATO, bilateral and UK Know-How projects. Research funding attracted over 46 M€. Co-Editor-in-Chief of Journal of Cleaner Production (IF 2020 = 9.297) and Chemical Engineering Transactions, Editor in Chief Cleaner Technologies and Engineering and Cleaner Chemical Engineering (Elsevier); Subject Editor of Energy (IF 2020 = 7.147) Managing Guest Editor of Renewable and Sustainable Energy Reviews (IF 2020 = 14.982). The founder and President of 25 y of PRES (Process Integration for Energy Saving and Pollution Reduction) conferences. Seven years Chairperson of CAPE Working Party of European Federation of Chemical Engineering, a member of WP on Process Intensification. A Member of the IChemE, UK, Sargent Medal International Committee on CAPE. Awarded by the Web of Science and Publons as a Highly Cited Researcher, Top Peer Reviewer and Top Handling Editor. He authored and co-authored 792 papers (WoS) in 106 scientific journals, h-index in Google Scholar 78, Scopus 67, PUBLONS (WoS) 61. His Publons profile (Web of Science) has 2,552 reviews for 186 scientific journals and 17,020 Editor Merits for 24 Editorial boards. Invited lecturer at 68 universities, 14 Distinguished Visiting Professor, 6 Doctor Honoris causa, 36 PhD students, 44 Expert Evaluator. Invited lecturer at 52 universities world-wide including Cornell, Ithaca, and North-West University Chicago, USA; Fudan University and SINOPEC Shanghai Research Institute of Petrochemical Technology, Shanghai; Tsinghua and Chinese Academy of Sciences, Beijing, South China University of Technology, Guangzhou, Xi’an Jiaotong University, China; Hong-Kong Polytechnic University; National Chengchi University and National Taiwan, Taipei, Taiwan; Hanyang University, and Korea Universities, Seoul, Republic of Korea; Institute of Food Research, Norwich Research Park, Colney, Norwich, Imperial College, London, UK; Norwegian University of Science and Technology – NTNU, Trondheim, Norway; Tomsk Technological University, Tomsk, Russian Federation; S. Amanzholov East Kazakhstan State University, Ust-Kamenogorsk, Kazakhstan; University of Paderborn and Bayer Technology Services GmbH, Leverkusen and BASF Board of Directors Forum on Process Technology, Ludwigshafen, Germany; VTT Energy, Finland; VITO MOL, Belgium: MOL Hungarian Oil Company, DUSLO Šala, Slovakia, TNO Leiden, Groningen, Zeist and Eindhoven; Utrecht and Delft University, the Netherlands; University Politechnica Leonardo da Vinci, Milano, Università degli studi di Genova and Sapienza, Rome, Italy; Universidad Industrial de Santander, Colombia; King Mongkut’s University of Technology Thonburi, Bangkok, Thailand, Faculdade de Engenharia da Universidade do Porto, Oporto, Portugal, CEA Grenoble, France; Charmers and Stockholm University, Sweden. Several times Distinguished Visiting Professor incl Universiti Teknologi Malaysia and University Technology Petronas, Malaysia; Xi’an Jiaotong University; the South China University of Technology, Guangzhou, Xi’an Jiaotong-Liverpool University Suzhou, JiangSu, and Tianjin University in China; University of Maribor, Slovenia; the Brno University of Technology, the Russian Mendeleev University of Chemical Technology, Moscow and Cracow University of Technology, Poland. Doctor Honoris Causa of Kharkiv National University “Kharkiv Polytechnic Institute”, Ukraine, the University of Maribor, Slovenia, University POLITEHNICA Bucharest, Romania, Széchenyi István University Györ, Hungary and “Honorary Doctor of Engineering” Universiti Teknologi Malaysia”. Awarded with “Honorary Membership of Czech Society of Chemical Engineering”, “European Federation of Chemical Engineering (EFCE) Life-Time Achievements Award” and “Pro Universitaire Pannonica” Gold Medal.

In this Book

  • Foreword to the Second Edition
  • Foreword to the First Edition
  • Process Integration—An Introduction
  • Basic Process Integration Terminology
  • Fifty Years of Heat Integration—Pinch Analysis and Mathematical Programming
  • Process Design, Integration and Optimisation—Advantages, Challenges and Drivers
  • Heat Integration – Performance Targets and Heat Exchanger Network Design
  • Analysis and Synthesis of Utility Systems, Including Heat Pumping and Combined Heat and Power
  • Total Site Methodology
  • Total Site with Varying Supply and Demand (Including Renewables)
  • Analysis and Design of Heat Recovery Systems for Grassroots and Retrofit Situations
  • Multipurpose Batch Plant Heat Integration via Intermittently Available Continuous streams—Additional Heat Storage Option
  • Water Integration and Water Pinch Analysis
  • Using Systematic Design Methods to Minimise Water Use in Process Industries
  • Water Network Integration with Multiple Partitioning Interception Units
  • Conserving Material Resources Through Process Integration—Material Conservation Networks
  • Problem Table Development and Implementation
  • Process Integration for Cleaner Process Design
  • Process Integration Concepts for Combined Energy and Water Integration
  • Reducing Energy Consumption Through Process Integration—The Case of a Fertiliser Plant
  • Pinch Analysis for Sustainable Energy Planning
  • Pinch Analysis for Regional Water Scarcity Assessment
  • A Process Integration Approach for Supply Chain Development
  • Extension of Pinch Analysis to Sustainable Solid Waste Management
  • Energy and Water Integration in Oil & Gas Refineries and Petrochemical Plants
  • Extending Process Integration to Asset Maintenance and Resource Conservation in Circular Economies
  • Simultaneous Process Design and Control in Integrated Energy Conversion Systems – Organic Rankine Cycles
  • Applications of Process Integration Methodologies in the Pulp and Paper Industry
  • Analysis of Heat Cascade to Increase Plant Energy Efficiency in Retrofit Situations
  • Applying Process Integration to Thermal Processing of Waste
  • Application and Novel Tools of Heat Integration for Process Retrofit
  • Reducing Energy Consumption Through Process Integration—The Case of a Fertiliser Plant
  • Applying Process Integration for Energy Savings in Buildings and Building Complexes
  • Heat Transfer Enhancement in Heat Exchanger Networks
  • Photovoltaic–Thermal Waste Heat Integration with Underground Thermal Energy Storage and Heat Pump Systems
  • Power Pinch Analysis
  • Software Tools for Heat Integration
  • Mass and Water Integration Software Tools
  • Epilogue—The Importance of Problem Formulation and Data Extraction in Process Integration
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