Proceedings of the 2025 7th International Conference on Civil Engineering, Environment Resources and Energy Materials (CCESEM 2025)
Conference Name: Proceedings of the 2025 7th International Conference on Civil Engineering, Environment Resources and Energy Materials (CCESEM 2025)
Date: September 5-7 2025
Location: Guangzhou, China (Hybrid)
Website: https://www.ccesem.net/ The 2025 7th International Conference on Civil Engineering, Environment Resources and Energy Materials (CCESEM 2025) took place from September 5 to 7, 2025, in Guangzhou, China. The event attracted over 153 participants from universities, research institutes, and industry, fostering discussions on emerging research and practical innovations. Out of 88 submissions, 41 were accepted after thorough peer review, reflecting the current scope and quality of research in civil engineering, environmental management, and energy materials. CCESEM 2025 hosted five keynote presentations, each addressing critical challenges in the field. Professor Jun Liu (South China University of Technology, China) highlighted advances in polymer-based solid-state batteries. Professor Yan Xu (Nanyang Technological University, Singapore) examined coordinated operation and planning of distributed energy resources in microgrids. Researcher Zhang Lan (Nanyang Technological University, Singapore) analyzed the influence of carbon nanotubes on the mechanical performance of ultra-high-performance concrete. Associate Professor Yaolin Yi (Nanyang Technological University, Singapore) presented strategies for utilizing solid wastes and industrial by-products in land reclamation. Professor Chichun Hu (South China University of Technology, China) detailed the construction and implementation of Novapave overlays for pavement preservation. Complementing the keynotes, oral presentations offered diverse insights and practical solutions, enriching the scientific dialogue. The conference covered a wide spectrum of topics, integrating civil engineering, environmental sustainability, and energy materials. Discussions ranged from soil and rock mechanics, slope stability, and foundation settlement to unsaturated soil behavior, freeze-thaw characteristics, and geotechnical disaster prediction. Advances in soil remediation, heavy metal passivation, organic agriculture, and intelligent soil monitoring were explored. Environmental and geological studies addressed climate change impacts, coastal wetland evolution, groundwater pollution, and regional geological assessment. Energy-focused sessions emphasized renewable energy, energy storage, thermal and power engineering, alternative fuels, greenhouse gas mitigation, and innovative materials for civil and energy applications. Collectively, these topics illustrate the intersection of sustainability, advanced materials, and engineering innovation. CCESEM 2025 offered a dynamic platform for exchanging ideas, fostering collaboration, and showcasing cutting-edge research. The organizers extend sincere thanks to keynote speakers, authors, reviewers, and participants whose contributions made this conference a success. CCESEM 2025 Conference Committee
Date: September 5-7 2025
Location: Guangzhou, China (Hybrid)
Website: https://www.ccesem.net/ The 2025 7th International Conference on Civil Engineering, Environment Resources and Energy Materials (CCESEM 2025) took place from September 5 to 7, 2025, in Guangzhou, China. The event attracted over 153 participants from universities, research institutes, and industry, fostering discussions on emerging research and practical innovations. Out of 88 submissions, 41 were accepted after thorough peer review, reflecting the current scope and quality of research in civil engineering, environmental management, and energy materials. CCESEM 2025 hosted five keynote presentations, each addressing critical challenges in the field. Professor Jun Liu (South China University of Technology, China) highlighted advances in polymer-based solid-state batteries. Professor Yan Xu (Nanyang Technological University, Singapore) examined coordinated operation and planning of distributed energy resources in microgrids. Researcher Zhang Lan (Nanyang Technological University, Singapore) analyzed the influence of carbon nanotubes on the mechanical performance of ultra-high-performance concrete. Associate Professor Yaolin Yi (Nanyang Technological University, Singapore) presented strategies for utilizing solid wastes and industrial by-products in land reclamation. Professor Chichun Hu (South China University of Technology, China) detailed the construction and implementation of Novapave overlays for pavement preservation. Complementing the keynotes, oral presentations offered diverse insights and practical solutions, enriching the scientific dialogue. The conference covered a wide spectrum of topics, integrating civil engineering, environmental sustainability, and energy materials. Discussions ranged from soil and rock mechanics, slope stability, and foundation settlement to unsaturated soil behavior, freeze-thaw characteristics, and geotechnical disaster prediction. Advances in soil remediation, heavy metal passivation, organic agriculture, and intelligent soil monitoring were explored. Environmental and geological studies addressed climate change impacts, coastal wetland evolution, groundwater pollution, and regional geological assessment. Energy-focused sessions emphasized renewable energy, energy storage, thermal and power engineering, alternative fuels, greenhouse gas mitigation, and innovative materials for civil and energy applications. Collectively, these topics illustrate the intersection of sustainability, advanced materials, and engineering innovation. CCESEM 2025 offered a dynamic platform for exchanging ideas, fostering collaboration, and showcasing cutting-edge research. The organizers extend sincere thanks to keynote speakers, authors, reviewers, and participants whose contributions made this conference a success. CCESEM 2025 Conference Committee