To curb the impacts of rising CO2 emissions, the Intergovernmental Panel on Climate Change report states that a net zero target needs to be achieved by the year 2055. Experts argue that this is a critical time to make important and accurate decisions. Thus, it is essential to have the right tools to...

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Bibliographic Details

Main Author:	Andiappan, Viknesh (Author)
Format:	Book
Language:	English
Published:	Oxford Taylor & Francis 2024
Series:	Green Chemistry and Chemical Engineering
Subjects:	bicssc / Environmental science, engineering & technology bicssc / Engineering - general bicssc / Energy bicssc / Alternative & renewable energy sources & technology bicssc / Probability & statistics bicssc / Chemical engineering bicssc / Business & management bicssc / Optimization bicssc / Mathematical modelling bicssc / Energy industries & utilities bisacsh / TECHNOLOGY & ENGINEERING / Chemical & Biochemical bisacsh / TECHNOLOGY & ENGINEERING / Environmental / General bisacsh / TECHNOLOGY & ENGINEERING / Materials Science / General bisacsh / TECHNOLOGY & ENGINEERING / Power Resources / Alternative & Renewable bisacsh / TECHNOLOGY & ENGINEERING / Power Resources / Fossil Fuels
Summary:	To curb the impacts of rising CO2 emissions, the Intergovernmental Panel on Climate Change report states that a net zero target needs to be achieved by the year 2055. Experts argue that this is a critical time to make important and accurate decisions. Thus, it is essential to have the right tools to efficiently plan and deploy future energy systems and supply chains. Mathematical models can provide decision-makers with the tools required to make well-informed decisions relating to development of energy systems and supply chains. This book provides an understanding of the various available energy systems, the basics behind mathematical models, the steps required to develop mathematical models, and examples/case studies where such models are applied. Divided into two parts, one covering basics for beginners and the other featuring contributed chapters offering illustrative examples, this book: • Shows how mathematical models are applied to solve problems in energy systems and supply chains • Provides fundamentals of the working principles of various energy systems and their technologies • Offers basics of how to formulate and best practices for developing mathematical models, topics not covered in other titles • Features a wide range of case studies • Teaches readers to develop their own mathematical models to make decisions on energy systems This book is aimed at chemical, process, mechanical, and energy engineers
Item Description:	Part A: Fundamentals, 1. Energy Systems and Supply Chains, 2. Optimization of Energy Systems and Supply Chains, 3. Formulating Generalized Mathematical Models, Part B: Applications, 4. Mixed-Integer Linear Programming Model for the Synthesis of Negative-Emission Biochar Systems, 5. A Comprehensive Guidance on Transitioning Toward Sustainable Hydrogen Network from Localized Renewable Energy System: Case Study of South Korea, 6. An Optimization Framework for Polygeneration System Driven by Glycerine Pitch and Diesel, 7. Multi-Objective Optimization of TEG Dehydration Process to Mitigate BTEX Emission under Feed Composition Uncertainty, 8. Constrained Production Planning with Parametric Uncertainties, 9. Linear Programming Models Based on the Input-Output Framework, 10. Optimisation of Oil Palm-Based Biodiesel Supply Chain: Upstream Stages, 11. Optimal Design of Islanded Distributed Energy Systems Incorporating Renewable Energy for Rural Africa: A Namibian Case Study, 12. Multi-Objective Optimization for Energy Network Planning: Energy Storage and Distribution in Integrated Solar Powered Grids
Physical Description:	240 Seiten 453 gr
ISBN:	9781032146225