Chen | Energy Saving and Carbon Reduction | Buch | 978-981-19-5294-4 | sack.de

Buch, Englisch, 682 Seiten, HC runder Rücken kaschiert, Format (B × H): 160 mm x 241 mm, Gewicht: 1226 g

Chen

Energy Saving and Carbon Reduction

Approaches for Energy and Chemical Industries
1. Auflage 2022
ISBN: 978-981-19-5294-4
Verlag: Springer Nature Singapore

Approaches for Energy and Chemical Industries

Buch, Englisch, 682 Seiten, HC runder Rücken kaschiert, Format (B × H): 160 mm x 241 mm, Gewicht: 1226 g

ISBN: 978-981-19-5294-4
Verlag: Springer Nature Singapore

The book provides an integrated energy/exergy analysis method to identify the energy utilization issues and systematically propose the cost-effective energy-saving and CO2 mitigation/capture solution. There is a strong market needs on energy-saving and greenhouse gas (GHG) reduction. CO2 mitigation/capture will achieve economic benefit of fuel, power, and carbon tax saving as well as environmental GHG reduction. The book is a professional book for energy-saving and GHG gas mitigation technology in oil & gas, oil refining, and chemical industry. It is an integrated technical book that combines energy utilization theory and practical method, including: thermodynamic analysis for unit operation and process units; energy and exergy calculation for various process streams and utilities; three-link energy/exergy analysis model; energy/exergy balance of equipment, process units, and entire plant; approach and technology of energy saving; optimization of pipeline and equipment; pinch energy-saving technology and its application; CO2 capture and utilization with 8 case studies incorporated for all different scenarios; key energy-saving technologies such gas turbine, FCCU regeneration CO combustion and energy recovery, flue gas turbine system optimization, low-grade heat recovery and utilization.  The book is intended for engineers and professional personnel who are working in process engineering, EPC companies, chemical and petrochemical plants, refineries, oil & gas production facilities, power generation plant. It can also be a professional reference or textbook for undergraduate or graduate-level university students and teaching personnel of chemical, energy, and process engineering faculties of universities.
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Zielgruppe

Professional/practitioner

Autoren/Hrsg.

Chen, Tony A.

Fachgebiete

Weitere Infos & Material

1 Thermodynamics Fundamentals 11.1 Basic Terms 11.2 Energy Form and Reference State 51.3 The First Law of Thermodynamics 91.4 The Second Law of Thermodynamics 151.5 Energy saving and GHG gas mitigation 232 Calculation of Thermophysical Energy and Exergy 252.1 Calculation of energy and exergy of process thermal effect 252.2 Calculation of Energy and Exergy of Petroleum and Its Fractions 392.3 Calculation of Energy and Exergy of Light Hydrocarbon and Its Mixture 462.4 Calculation of water vapor, water and air energy and exergy 512.5 Calculation of heat dissipation energy and exergy 523 Calculation of Mechanical Energy and Chemical Exergy 583.1 Calculation of real gas energy and exergy 583.2 Calculation of Energy in the Process of Fluid Flow 663.3 Chemical Exergy and Calculation of Fuel Exergy 704 Thermodynamic Analysis of Energy Consumption in Process 794.1 Thermodynamic analysis of heat transfer process 794.2 Thermodynamic analysis of fluid flow process [2] 844.3 Thermodynamic Analysis of Mass Transfer Process 874.4 Thermodynamic Analysis of Chemical Reaction Process 924.5 Thermodynamic analysis of the combustion process [5,6] 965 Energy utilization three-link analysis method 1005.1 Energy consumption characteristics of petrochemical industry 1005.2 Improvement of the three-link model of energy consumption analysis[3] 1015.3 The consideration of using energy utilization Three-link model 1035.4 The detail items of the improved three-Link model 1055.5 Balance relationship and evaluation index of the three-link model 1086 Equipment Energy Balance and Exergy Balance 1166.1 The content and requirements of the device energy analysis test 1166.2 Pump and Compressor Equipment 1186.3 Industrial Furnace Equipment 1276.4 Catalytic cracking regenerator 1426.5 Process energy utilization equipment 1526.6 Energy recovery and utilization equipment 1647 Energy balance and exergy balance of petrochemical plants 1747.1 Balance verification of system energy consumption data in the plant 1747.2 Plant heat loss verification and summary 1837.3 Balance of supply and consumption of steam, electricity and water 1867.4 Plant energy balance and exergy balance calculation and summary 1908 Utility/Auxiliary system and energy balance of the whole plant 2068.1 Energy balance of utility system 2078.2 Energy balance of auxiliary system 2188.3 Summary of plant-wide energy balance 2239 Energy consumption analysis and energy-saving improvement methods 2359.1 The influence of plant size and ambient temperature on energy consumption 2359.2 Analysis and estimation of the impact of loading on plant energy consumption [3] 2399.3 Assessment of energy use level and energy saving potential 2539.4 Approaches for energy-saving improvement of production plant 2629.5 Large-scale system optimization method and improvement approach 27410 Approach on CO2 mitigation and capture 28410.1 Fuel efficiency Improvement, using lower carbon fuel and renewable energy 28410.2 CO2 distribution and its properties 28610.3 CO2 Capture-solvent absorption 28810.4 CO2 capture case studies using Amine solvent 29610.5 CO2 capture case studies using DEPG physical solvent 30210.6 Flue gas CO2 capture using oxygen instead of combustion air 30710.7 CO2 capture using Cryogenic / Turbo Expander10.8 Flue gas CO2 capture using Membrane Technology10.9 CO2 compression and dehydration 30910.10 CO2 chemical utilization and storage 31311 Technical and economic evaluation of

Tony A. Chen is a registered professional engineer in Canada with over 40 years of experience in the petrochemical and oil & gas industries. He is an expert in energy integration, GHG mitigation, process engineering, process simulation and optimization. He received his Master’s Degree in petroleum engineering from Beijing Petroleum University. Most recently, he served as a senior process advisor for Chevron Corporation worked on Chevron LNG plant, gas processing, TCO oil & gas facilities and received Chevron TCO Management Recognition Award in 2020 for initiating and implementing an ethane gas flaring reduction project that achieved significant cost savings. While at Chevron, Tony also led the energy integration and GHG reduction program for an LNG project with significant cost saving and made a presentation for Chevron FE 2014 World Conference in Houston on Energy Integration and GHG Mitigation for the LNG Project. He is also the author of Methods and Technology of Energy Conservation on Petrochemical Process, written two textbooks used in the continuing engineering training for SINOPEC. He delivered an integrated simulation model on H&M balance and BFD development using HYSYS and presented it on 2009 Aspen Worldwide User Conference in Houston. He received four Science and Technology Awards from SINOPEC. Granted 1 invention patent by Patent Bureau of China. Prior to Chevon, as a principal process engineer, he also worked for Jacobs and other EPC companies in Canada, experienced whole range of process engineering, including FEED and detail engineering, and completed 50+ projects with cost-effective solutions. He was the manager of environmental engineering department of LPEC/SINOPEC before 2000. In this role, he completed multiple oil refinery energy integration and GHG mitigation projects and process design and energy integration for multiple process units.

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