2025 International Conference on Computer Science, Energy, Civil and Environmental Engineering
ISBN: 978-1-965471-09-8
Editorial Team : Laura Brown
The 2025 International Conference on Computer Science, Energy, Civil and Environmental Engineering (ICCSECEE 2025) is committed to establishing a high-level international platform for academic exchange and collaboration in the fields of computer science, energy engineering, civil engineering, and environmental engineering. The conference aims to promote the dissemination of innovative ideas, encourage interdisciplinary integration, and facilitate the sharing of cutting-edge research achievements and practical engineering experience. ICCSECEE 2025 provides a forum for researchers, scholars, engineers, and industry professionals to present recent advances, exchange scientific insights, and explore emerging challenges and opportunities across these interconnected disciplines. By fostering dialogue and collaboration among academia, research institutions, and industry, ICCSECEE 2025 seeks to bridge theoretical research and practical applications, stimulate technological innovation, and contribute to the sustainable development of science, engineering, and the environment in the context of rapid global transformation.
OPEN ACCESS
DOI : https://doi.org/10.70114/acmsr.2025.5.1.P1
Research on Ship Path Planning Based on Improved Whale Optimization Algorithm
Author: Xinpeng Gao, Jianhui Cui, Yangwen Dan, Yingjun Hu
1,10
Abstract: In view of the problems of the traditional Whale Optimization Algorithm (WOA) when dealing with ship path planning tasks, such as easy to fall into local optimum and weak later search ability, an improved Whale Optimization Algorithm (IWOA) was proposed. Firstly, the algorithm introduces Tent chaotic map to initialize the population, enrich the diversity of the population, and enhance the global search ability. Secondly, the stochastic differentiation algorithm is introduced to update the indivi...
OPEN ACCESS
DOI : https://doi.org/10.70114/acmsr.2025.5.1.P11
Late Pleistocene Paleoclimate Oscillations in the Northeast Tarim Basin: Insights from Multi-Proxy Lacustrine Sediment Analysis (72-51 ka B.P.)
Author: Youliang Bai, Yuanying Liu, Hui Chen, Jinming Zheng, Wei Xiao, Chuan Wang, Jianshe Liu
11,24
Abstract: This study elucidates the high-resolution paleoclimatic oscillations within the northeastern Tarim Basin during the Late Pleistocene epoch, specifically spanning from 72~51 ka B.P. . A multi-proxy analytical approach was employed, with Optically Stimulated Luminescence (OSL) dating utilized to establish the chronological framework of the LX02 sedimentary sequence. Subsequent analyses encompassed grain size distribution, clay mineral assemblages, geochemical constituents, and pollen spectra to d...
OPEN ACCESS
DOI : https://doi.org/10.70114/acmsr.2025.5.1.P25
Hydrotalcite-Based Composite Photothermal Coupling Catalysts: Realizing Green and Efficient Synthesis of High-Value Hydrogen Peroxide
Author: Wenying Shi, Qi Wu, Liping Guan, Xianglong Zhao
25,31
Abstract: In this paper, we intercalated 5,10,15,20-tetra(4-carboxyphenyl)porphine (TCPP) into layered double hydroxides (LDHs), where tilted J-type aggregation extends light absorption to the UV-vis-NIR range and introduces a synergistic photothermal effect. High-energy photons drive electron–hole separation for two-electron O2 reduction to *OOH and H2O2, while low-energy photons generate localized heat to enhance charge separation and lower barriers. The ordered ‒COOH/‒NH groups further adsorb and stabi...
OPEN ACCESS
DOI : https://doi.org/10.70114/acmsr.2025.5.1.P32
Modeling of Protoplanetary Disks Based on Radmc-3D
Author: Yuanjing Li
32,39
Abstract: From the early stages of star formation to the formation of planetary systems, stars are surrounded by a disk of material that changes in structure and properties as the stars and planets evolve. This disk of material is called the protoplanetary disk, which consists of a large amount of dust and gas, and with the formation of planetary systems, the protoplanetary disk further evolves into a debris disk. The structure of the protoplanetary disk is closely related to the growth of the planets in ...
OPEN ACCESS
DOI : https://doi.org/10.70114/acmsr.2025.5.1.P40
A Route Planning Method for Intelligent Ships Based on the AS-DDQN Algorithm
Author: Xinpeng Gao, Jianhui Cui, Yangwen Dan, Yingjun Hu
40,52
Abstract: In view of the problems of the traditional Whale Optimization Algorithm (WOA) when dealing with ship path planning tasks, such as easy to fall into local optimum and weak later search ability, an improved Whale Optimization Algorithm (IWOA) was proposed. Firstly, the algorithm introduces Tent chaotic map to initialize the population, enrich the diversity of the population, and enhance the global search ability. Secondly, the stochastic differentiation algorithm is introduced to update the indivi...
OPEN ACCESS
DOI : https://doi.org/10.70114/acmsr.2025.5.1.P53
Research on a Bidirectional RRT* Algorithm Integrating Multi-Strategy Sampling and Nonlinear Adaptive Step Size for Ship Path Planning
Author: Runkai Ren, Jianhui Cui, Tongjin Wei, Fei Liu, Yingjun Hu
53,60
Abstract: Addressing the issues of poor path quality, lengthy planning time, low efficiency, and excessively sharp turns in traditional RRT algorithms for ship path planning, this paper proposes a bidirectional Rapidly Expanding Random Tree (RRT) algorithm based on multi-strategy sampling and nonlinear adaptive stride. The algorithm replaces the single-tree expansion of traditional RRT with a dual-tree expansion and incorporates a nonlinear adaptive step size mechanism. This enables the algorithm to auton...
OPEN ACCESS
DOI : https://doi.org/10.70114/acmsr.2025.5.1.P61
Research on Ship Wake–Sea Surface Interaction Modeling Based on Gaussian Energy Coupling
Author: Ben Zhang, Tao Yang, Yian Zhao, Hao Zhao, Guijie Fu, Zhenhua Li, chunyong Wang, Jianchen Lai
61,70
Abstract: The optical detection accuracy of ship wakes strongly depends on the precision of wake–sea surface coupling modeling. Most existing studies ignore the energy interaction between the two and adopt a direct superposition approach, which results in significant deviation from the actual marine environment. This paper focuses on the research framework of “wake distribution characteristics–sea surface modeling–coupling superposition–detection impact.” First, the three-dimensional distribution characte...
OPEN ACCESS
DOI : https://doi.org/10.70114/acmsr.2025.5.1.P71
A river velocity inversion method based on a multi-peak precise matching algorithm for acoustic tomography
Author: Zhenghui Li, Yangming Zeng, Junhao Huang, Chen Liu, Dongbao Gao
71,78
Abstract: This paper addresses signal matching challenges encountered in River Acoustic Tomography (RAT) [1] technology applications within short-distance rivers. To overcome limitations associated with significant errors in traditional maximum peak methods within such environments, a novel multi-peak accurate matching approach is proposed. This method integrates a greedy strategy [2] with the Hungarian algorithm [3], resulting in enhanced accuracy. Experimental findings demonstrate that velocity inversio...
OPEN ACCESS
DOI : https://doi.org/10.70114/acmsr.2025.5.1.P79
Study on the Stability of aquiclude in the Close-Distance Coal Seams Repeated Mining in the Jurassic Coalfield of Northern Shaanxi
Author: Jian Cao, Xinyang Niu, Xiangye Wu, Liang Li, Xuwei Mao
79,86
Abstract: The aquifer in the Salawusu Formation is extensively distributed within the Jurassic coalfield of northern Shaanxi, China. However, the fracture development in overlying strata induced by repeated mining of close-distance coal seams and the stability of the aquiclude remain unclear. Combining the methods of statistical analysis, numerical simulation, and theoretical analysis, the stability criterion of the aquiclude was established. Results show that for single coal seam mining, the development ...
OPEN ACCESS
DOI : https://doi.org/10.70114/acmsr.2025.5.1.P87
Land Desertification Management from a Cross-Disciplinary Perspective: Enhancing Sustainable Land Development through Integrated Biological Management Techniques
Author: Ganxi Adam Luoa, Wangang Zhu, Tao Xu, Kui Hu, Bohua Hao, zhecong Li, Haakon karlsen
87,91
Abstract: Land desertification is a significant ecological degradation phenomenon that threatens human survival and health worldwide. The primary factors contributing to land desertification include vegetation loss, soil nutrient depletion, bare soil surfaces, wind and water erosion, and the consequent decline in land productivity. Controlling and reversing land desertification is a critical ecological challenge faced by countries globally. Among various strategies, biological interventions that curb the ...
OPEN ACCESS
DOI : https://doi.org/10.70114/acmsr.2025.5.1.P92
Design of an Internet of Things Monitoring System for Understory Crops Based on Information Fusion
Author: Ke Lou, Chenjun Yin, Jie Fang
92,98
Abstract: Enhancing the productivity, economic efficiency, and ecological sustainability of understory crops under limited forest resources represents a critical challenge. To address this issue, the project investigates and implements an IoT-based monitoring system integrated with information fusion. The main contributions are as follows: a) The design and development of wireless acquisition nodes characterized by low power consumption, low cost, and high reliability. b) The construction of a wide-covera...
OPEN ACCESS
DOI : https://doi.org/10.70114/acmsr.2025.5.1.P99
Constrained-Unconstrained Strategy Empowers Metastable Assemblies to Achieve Breakthrough Enhancement in Photocatalytic Hydrogen Evolution Efficiency
Author: Wenying Shi, Yongsheng Bai, Shaoyue Shuai
99,105
Abstract: Solar photocatalytic hydrogen production represents a significant development direction within the clean energy sector. Whilst symmetric organic photocatalysts offer advantages such as abundant raw materials and tunable structures, their high exciton binding energy (Eb) severely constrains the conversion efficiency from solar to hydrogen energy. This study employs 3,9-pyridinedicarboxylic acid (PDA) as a model molecule, proposing an entrapment-release engineering strategy: PDA is confined within...
OPEN ACCESS
DOI : https://doi.org/10.70114/acmsr.2025.5.1.P106
Quantifying and Mapping the Spatiotemporal Characteristics of High Seas Shipping and the Pollution
Author: Chang Zhao
106,112
Abstract: Global shipping plays a crucial role in international trade. It is responsible for 2-3% of global greenhouse gas emissions. Emissions from maritime transportation on the high seas show considerable variation over time and across different locations. The volume of emissions from ships is closely linked to the level of shipping activity. This study utilizes global shipping Automatic Identification System (AIS) data from 2015 to 2024 to analyze the spatial and temporal patterns and trends of mariti...
OPEN ACCESS
DOI : https://doi.org/10.70114/acmsr.2025.5.1.P113
Design of a Wide-Range Adjustable Linear Power Supply
Author: Puxin Liu, Xingwen Dong, Chunsheng Zhu
113,121
Abstract: Industrial adjustable DC power supplies are mostly analog power supplies that use hardware closed-loop control and rely on mechanical regulation, making it difficult to balance wide range adjustable output and low ripple, and having poor regulation accuracy. To solve this problem, a wide range adjustable and low ripple DC stabilized power supply was designed using TI TPS54360B synchronous Buck converter and MIC29502 low dropout linear regulator. Using STM32F103C8T6 microcontroller as the control...
OPEN ACCESS
DOI : https://doi.org/10.70114/acmsr.2025.5.1.P122
Validation of ISAA-Na Code for Sodium-Cooled Fast Reactors: CABRI-BI1, AGS0, and E7 Experiments
Author: Shaowei Tang, Bin Zhang
122,131
Abstract: Accurate transient behavior modeling is crucial for assessing the safety of sodium-cooled fast reactors (SFRs) . This study validates the ISAA-Na code through simulations of the CABRI-BI1, AGS0, and E7 experiments. The CABRI-BI1 experiment, focused on sodium boiling, was simulated using a multi-bubble slug flow model. Results showed that ISAA-Na more accurately predicted coolant temperature and pressure prior to boiling than SAS4A, ASTEC-Na, and SIMMER. In the CABRI-E7 experiment, ISAA-Na’s clad...
OPEN ACCESS
DOI : https://doi.org/10.70114/acmsr.2025.5.1.P132
Modeling and Closed-Loop Transient Analysis Method of Large Bypass Ratio Turbofan Engine
Author: Yu Fang, LinFeng Gou, WeiGang Zhang, ZhengBo Guo, YuZhi Chen
132,139
Abstract: As the core aerospace power unit, the high-bypass two-spool separate-exhaust turbofan engine, a typical aerothermodynamic coupling system, exhibits strong nonlinearity within the flight envelope due to dynamic changes in environmental parameters and operating modes, with transient control being a research difficulty for involving multi-steady-state switching and fault risks. This paper built its component-level model via the analytical method based on aerodynamic/thermodynamic principles, solvin...
OPEN ACCESS
DOI : https://doi.org/10.70114/acmsr.2025.5.1.P140
Tactical Research on Military UAVs: Hotspots, Evolution and Frontier Prospects(Visual Analysis Based on CiteSpace for Chinese Core Thematic Literature in CNKI)
Author: Chen Xu, Xiaohui Zhang, Zhaohua Zhang
140,150
Abstract: As a core element in the evolution of modern warfare patterns, military UAV tactics form a tactical system integrating aerospace engineering, artificial intelligence, reconnaissance and surveillance, and precision strike technologies, covering mission planning, cooperative operations, anti-jamming protection, and effectiveness evaluation. To clarify its development context and laws, this study takes 354 core journal papers (Peking University Core Journals) indexed in CNKI from 1993 to 2025 as sa...
OPEN ACCESS
DOI : https://doi.org/10.70114/acmsr.2025.5.1.P151
Research on Safety Impact Assessment Method of Rocket Launching for Nuclear Power Plant
Author: Handing Wang, Xiaoyu Liang, Qiongzhe Li
151,157
Abstract: With the rapid development of commercial aerospace activities, the risk from new external human-induced events, such as those originating from nearby satellite rocket launch sites, requires evaluation.. This paper investigates the risk posed by a satellite rocket launch site, which is only 26km away from the nuclear power plant. In view of the lack of evaluation guidelines for rocket impact nuclear facilities at home and abroad, this study refers to the analysis framework of aircraft impact in t...
OPEN ACCESS
DOI : https://doi.org/10.70114/acmsr.2025.5.1.P158
Measures and Practices for Energy Saving and Emission Reduction in Oil Depot Stations under the "Dual Carbon" Goals
Author: Man Ruan, Jinmao Chen, Jianli Zhao, Wanli Xu, Youjie Zhou, Long Huang, Yujuan Yin, Mengyi Wang, Peiqiang Chen, Xudong Wang
158,167
Abstract: Energy conservation and consumption reduction are vital for alleviating energy constraints and advancing ecological civilization. Within energy management, improving efficiency at oil depot stations represents a critical scenario and leverage point for achieving broader energy-saving and emission-reduction targets. These stations bear significant responsibility for enabling green development and pioneering energy efficiency. This paper examines the context of China's "Dual Carbon" (Carbon Peakin...
OPEN ACCESS
DOI : https://doi.org/10.70114/acmsr.2025.5.1.P168
AFA-Underwater: Dual-Path Adaptive Feature Augmentation for Few-Shot Deep-Sea Trash Detection
Author: Guangdong Zhu, Li Zhang
168,175
Abstract: As marine pollution intensifies, developing efficient deep-sea garbage detection technologies has become increasingly urgent. However, deep-sea environments present two major challenges: (i) the scarcity of target samples (few-shot problem), which makes it difficult to train deep learning models effectively; and (ii) harsh underwater imaging conditions—such as poor illumination and scattering—that lead to object blurring and background confusion. To address these challenges, this paper proposes ...