This book contains the proceedings of the 10th International Conference on Energy Engineering and Environmental Engineering (ICEEEE2023) that was held on August 6-8 2023 in Singapore. ICEEEE2023 is organized by Beijing Jiaotong University and Newcastle University. This book provides an international forum for discussion and communication of energy and environmental engineering.
It is expected to report the latest technological developments in the fields developed by academic researchers and industrial practitioners, with a focus on renewable energy technologies and systems, energy efficiency and conservation, environmental pollution and control, sustainable development, and green cities. The contents of this proceedings will be useful to researchers, professionals, and policymakers alike.
Table of Content
Experimental Evaluation of a Diesel Engine Performance and Emission Characteristics Powered by Hybrid Biodiesel and Butanol Blends.- Greenhouse Gas Treatment in the New Normal.- Discussion on Radiation Intensity of UVC-LED Different Arrangement Types.- Hydrogen leakage and diffusion simulation and ventination scheme optimization in confined spaces for electrolyser and fuel cell system.- Hydrogen purification characteristics comparison between zeolite adsorbents 13X and Li X.- Numerical simulation and risk assessment of hydrogen leakage from fuel cell system room in skid-mounted hydrogen refueling station.- Increasing nozzle blade deposition on steam turbine C-9015A by adding parallel grooved surface.- Numerical simulation study on the evolutionary characteristics of soil cavities in karst water mining area under positive pressure effect.- Low carbon and clean design for garment industry based on environmental footprint accounting.- Influence of the abandoned oil layer on heat mining performance of U-shape well geothermal system.- From Ozone Layer Protection to Mitigation of Climate Change: Perspective of Subtropical Regional Actions as “Pure Consumer”.- Optimized energy-performance building-integrated photovoltaic systems in hot and arid regions of South Africa.- An investigation on promotional strategies to green building adoption in a developing economy.- Lead Exposure in Primitive E-Waste Recycling and its Dose-Dependent Effects on Health.- Evaluation Method of Rural Revitalization Boosted by Water Conservancy.- Implementation of Online Digital Twin Framework for Thermal Power Plant.- Mini-Review of Opportunities and Challenges of Carbon Capture and Storage (CCS) Technology in Addressing Climate Change.- Studying the Physical Environment of the Chengdu-Demian Economic Circle on Combination Game Theory.- Research on Urban Renewal Strategies in China from the Perspective of Carbon Neutrality.- Alternative Building Materials for a Sustainable Built Environment: A Literature Review.- Comparative Assessment of Raw and Peroxide-Aeration Recycled Cassava Effluent on Soil Heavy Metal Content.- Feasibility study on using coal chemical residue for cement road construction.
About the author
Zuo-Yu Sun is Professor of Energy and Power Engineering at Beijing Jiaotong University, China. He is Fellow of Beijing Institute of Thermophysics and Energy Engineering, Editorial Advisory Member of “Journal of Chemical Research and Application” (ISSN: 2630-4775) on the subject of “Combustion and Thermophysics”, Editorial Advisory Member of “Chinese Journal of Urban and Environmental Studies” (English Journal, ISSN: 2345-7481), and Member of the Combustion Institute. He has over 80 journal and conference publications in fluid mechanics, combustion, and explosion involving experimental and modeling studies. Six of his journal articles had been indexed as ESI articles, and the h-index is 25 (Mendeley) upon about 1445 citations until the June 2022.
Prodip K. Das is currently an associate professor in hydrogen energy systems at the University of Edinburgh. His research interests and areas of expertise include hydrogen energy systems, fuel cells, Li-ion batteries, flow batteries, transport phenomena, nanofluids, convective heat transfer, and multiphysics modeling. He has published over 120 scientific articles, 7 book chapters, and 3 books in the areas of hydrogen fuel cells, Li-ion batteries, convective heat transfer, and related mechanical engineering areas. According to Google Scholar, the total number of his articles’ citations is over 3500 with an associated h-index of 28. Dr. Das also serves as associate editor of Frontiers in Energy Research (Frontiers Media), Journal of Electrochemical Energy Conversion and Storage (ASME), and Frontiers in Chemical Engineering (Frontiers Media) and is on the editorial/advisory board for four other journals (Batteries, Renewable and Sustainable Energy, Inventions, and Challenges).