2026 International Conference on Advanced Engineering, Environmental, Energy and Novel Materials
ISBN: 978-1-965471-13-5
Editorial Team : Laura Brown
The 2026 International Conference on Advanced Engineering, Environmental, Energy and Novel Materials is an international forum dedicated to the interdisciplinary integration of advanced engineering, environmental science, energy technologies, and novel materials. Against the backdrop of global carbon neutrality goals and the transition toward green and low-carbon development, research on renewable energy, environmental protection, resource efficiency, and innovative functional materials has become increasingly critical. This conference aims to establish an international platform for academic exchange and collaboration among researchers, engineers, and industry professionals worldwide. Topics include, but are not limited to, advanced engineering systems, renewable energy and energy storage/conversion, environmental pollution control and ecological restoration, carbon reduction technologies, green and sustainable materials, nanomaterials and functional materials, energy-related materials and devices, as well as the design and industrial application of environmentally friendly novel materials. Through keynote speeches, invited lectures, oral presentations, and poster sessions, the conference seeks to share cutting-edge research, address key scientific and technical challenges, and foster international cooperation in support of sustainable development. We cordially invite scholars, researchers, and industry representatives to submit contributions and participate in this event.
OPEN ACCESS
DOI : https://doi.org/10.70114/acmsr.2026.7.1.P1
Electrode Optimization for Electric Field Detection in Magnetotelluric Regional Monitoring
Author: Dingju Wang, Haidong Zhang, Maoyuan Nan
1,6
Abstract: Monitoring deep subgrade structures in complex geological environments is challenging. To address this problem, this paper proposes an electrode optimization method for electric field detection in regional magnetotelluric monitoring. First, a dynamic electrode selection model is established. The KD-tree algorithm is used to optimize measurement point distribution. Combined with non-orthogonal electric field calculation, an analytical relationship between the subgrade strike angle and the project...
OPEN ACCESS
DOI : https://doi.org/10.70114/acmsr.2026.7.1.P7
Response Analysis of a Novel Combined Seismic Isolation Structure under Long-Period Ground Motions
Author: Chaoqi wei, Tianwei Liao, Junwei Deng, Qinglin Hou, Bo Wang
7,12
Abstract: Long-period ground motions may induce pronounced responses in seismically isolated systems with relatively long fundamental periods, thereby increasing displacement demands in the isolation layer. Supplemental energy dissipation devices around isolation bearings effectively restrain isolation-layer displacements yet generally compromise the isolated system's isolation effectiveness under ordinary ground motions. To address this issue, a switchable damper (SD) based on a displacement-threshold tr...
OPEN ACCESS
DOI : https://doi.org/10.70114/acmsr.2026.7.1.P13
Research on Internal Force Adjustment Method for Frames of High-Rise RC Frame-Shear Wall Structures under Long-Period Ground Motions
Author: Chaoqi Wei, Song Jiao, Huaming Gao, Zixuan Zhang, Bo Wang
13,19
Abstract: In this study, the collaborative performance of reinforced concrete (RC) frame-shear wall structures under ordinary ground motions (OGMs), far-field long-period ground motions (FLGMs), and near-field long-period ground motions (NLGMs) is systematically analyzed using the OpenSees finite element simulation software. By comparing the structural response differences among the three types of ground motions at various peak ground acceleration (PGA) levels, the processes of internal force redistributi...
OPEN ACCESS
DOI : https://doi.org/10.70114/acmsr.2026.7.1.P20
Low-Detectability UAV Trajectory Optimization in Complex Mountainous Environments
Author: Ruchen Zhou, Boyan Liu, Wei Yu, Yichun Chen, Yucheng Lin, Xinhai Chen
20,28
Abstract: Unmanned Aerial Vehicles (UAVs) have been widely adopted in civil, military and industrial application fields owing to their advantages of flexible maneuverability, controllable costs and zero casualty risk, and are expanding to the field of low-altitude precise operations. Their operational reliability and efficiency in complex environments are becoming increasingly critical. In the scenario of UAV penetrating operations in complex terrain, the defense side needs to optimize the layout and depl...
OPEN ACCESS
DOI : https://doi.org/10.70114/acmsr.2026.7.1.P29
Mechanisms of Plant Tolerance to Salt-Alkali Stress: A Functional Trait-Based Perspective
Author: Hu Liu, Jian Wang, Qi Wang, Hongfang Li, Hui Zhou, Weidong Xi, Lei Gao
29,34
Abstract: Soil salinization and alkalization are major abiotic stresses limiting global crop productivity. Salt-alkali stress imposes combined effects of osmotic stress, ion toxicity, oxidative stress, and high pH on plants, disrupting membrane integrity, inhibiting photosynthesis, and impairing nutrient uptake. Plant tolerance to such stresses is a complex quantitative trait controlled by multiple genes, involving various physiological and morphological adaptation mechanisms. Functional traits play criti...
OPEN ACCESS
DOI : https://doi.org/10.70114/acmsr.2026.7.1.P35
Effects of Surface Thermal Field on the Discharge Characteristics of Nitrogen Plasma
Author: Jiankang Nie, Haoxuan Hu, Bo Ouyang, Siyu Liu, Erjun Kan
35,41
Abstract: Low-pressure plasma possesses significant application potential in materials fabrication and electrocatalysis due to its abundant reactive species, controllable discharge conditions, and capability for surface modification. However, insufficient attention has been paid to the evolution of the surface thermal field during conventional plasma treatment, which limits further optimization of material structure and performance. In such works, infrared thermography, operando optical emission spectrosc...
OPEN ACCESS
DOI : https://doi.org/10.70114/acmsr.2026.7.1.P42
Study on the Enhancement of Interaction between Surface Groups Modified Nanoparticles and Natural Ester Insulating Oil
Author: Yingrui Wu, Chuanyun Zhu, Fei Yin, Jie Li
42,48
Abstract: Power transformers in high-voltage power grids are among the most critical components, and insulating oil serves as the most important liquid dielectric medium inside high-voltage power transformers, playing key roles in insulation, heat dissipation, and monitoring transformer operating conditions. In recent years, considering environmental protection and the application of nanotechnology, researchers have explored the use of nanomodified natural ester insulating oil as a substitute for traditio...
OPEN ACCESS
DOI : https://doi.org/10.70114/acmsr.2026.7.1.P49
In-situ Diagnosis of Concrete Surface Deterioration and its Application in Wharf Structures
Author: Ye Wu, Longhai Feng, Yan Feng, Zhicheng Yu, Senlin Li
49,54
Abstract: 结构混凝土的表层可被视为其脆弱的“表皮”。混凝土在使用过程中的劣化过程及其严重程度是不容忽视的问题,这些问题与结构的长期性能和安全性密切相关。本文结合混凝土材料的内在特性与环境因素,全面分析了混凝土表层的损伤机制,并对现有的原位结构诊断方法进行了总结与评述。以某散货码头的腐蚀纵向梁为例,系统研究了该梁表面的腐蚀状态及程度。研究结果表明:回弹-压痕深度法能有效识别混凝土表面的松动区域;当中和深度超过混凝土表层厚度时,其指示性更强;而当中和深度未超过混凝土表层厚度时,该方法与超声波法测得的损伤层厚度存在一定相关性。所有研究结论均可为结构构件的维护与加固提供数据支持,并为类似结构实体的病害分析提供参考依据。
OPEN ACCESS
DOI : https://doi.org/10.70114/acmsr.2026.7.1.P55
Research on Management and Ecological Comprehensive Utilization of Coal based Bulk Solid Waste
Author: Chungang Ma, Hongli Wang, Congjiang Ran, Yongjie Wang, Kai Zhang
55,64
Abstract: This article addresses the challenges of managing and comprehensively utilizing coal based bulk solid waste. It analyzes the properties of coal gangue, fly ash, desulfurization gypsum, coal gasification slag, and other coal based bulk solid waste, potential ecological and environmental issues, resource utilization technologies, and current problems in ecological utilization. The results show that in order to ensure the more feasible and sustainable ecological utilization of coal based bulk solid...
OPEN ACCESS
DOI : https://doi.org/10.70114/acmsr.2026.7.1.P65
Analysis of the current situation of comprehensive utilization technology of coal gangue at home and abroad
Author: Cheng Chen, Jiaqi Zou, Tianyang Qin, Kai Zhang
65,72
Abstract: Coal occupies a dominant position in China's energy structure, but the large amount of coal gangue generated during its mining process has become a key issue restricting the green and sustainable development of the industry. This article is based on the policy background of promoting the comprehensive utilization of bulk solid waste at the national and local levels, combined with the severe situation of huge annual production, large storage volume, and high environmental risks of coal gangue in ...
OPEN ACCESS
DOI : https://doi.org/10.70114/acmsr.2026.7.1.P73
Ground deformation due to construction of closely spaced overlapping shield tunnels in reclaimed silt: case study
Author: Yuanping Jia, M. Hesham El Naggar
73,83
Abstract: The construction of closely spaced overlapping tunnels in soft reclaimed strata poses significant challenges to the tunnels’ structural integrity. This paper presents a case study of the Shenzhen Metro Line 5 obliquely overcrossing the existing Line 11 in a silt reclamation stratum. A three-dimensional finite element model was developed using Plaxis 3D to evaluate the influence of shield construction parameters on surface settlement and existing tunnel deformation. Key parameters considered incl...
OPEN ACCESS
DOI : https://doi.org/10.70114/acmsr.2026.7.1.P84
Research Progress on the Utilization of Coal Gangue for Ceramsite Production
Author: Bo Chang, Xiangguo Li, Yang Peng, Jidao Zhao, Bingyao Li, Kai Zhang
84,92
Abstract: Coal gangue, as the industrial solid waste with the largest discharge and stockpile volume in China, has seen its resource utilization become a critical issue in promoting the green development of the coal industry. This paper systematically reviews the technical principles, process methods, product characteristics, and application prospects of producing ceramsite from coal gangue. It provides an in-depth analysis of the potential of coal gangue for ceramsite production and offers a detailed com...
OPEN ACCESS
DOI : https://doi.org/10.70114/acmsr.2026.7.1.P93
Feasibility Analysis and Research on Producing Silicon Fertilizer from Coal Gangue
Author: Xueliang Sun, Xingmao Chen, Kai Zang, Chenxi Xuanyuan, Yun Li, Kai Zhang
93,99
Abstract: This paper systematically explores the feasibility of utilizing coal gangue, a byproduct of coal mining and washing, as a resource, particularly for the production of agricultural silicon fertilizer, in response to the severe environmental pressure and resource waste caused by its massive accumulation. The study begins with an in-depth analysis of the pollution caused by open-air storage of coal gangue to soil, water, and air, as well as its potential safety hazards, highlighting the urgency and...
OPEN ACCESS
DOI : https://doi.org/10.70114/acmsr.2026.7.1.P100
Enhanced CO2 Electroreduction to CO in Neutral Electrolytes via Sn-Doped Copper Catalysts
Author: Yaqing Hu, Zhaoxia Dong, Zihao Yang
100,105
Abstract: Converting CO2 to CO through renewable electricity-driven electrocatalysis offers a promising route for carbon cycling and energy storage, though challenges remain in achieving high selectivity and kinetics in neutral electrolytes. Here, we develop a series of composition-tunable CuSn catalysts via a wet-chemical method for efficient CO2 reduction to CO in 1.0 M KHCO3. The optimized 40CuSn catalyst achieves a CO faradaic efficiency (FE) of 85.79% at –0.9 V (vs. RHE, all potentials are reported r...
OPEN ACCESS
DOI : https://doi.org/10.70114/acmsr.2026.7.1.P106
Study of Failure Mechanisms and Mechanical Responses in Double-borehole Splitting via Plunger-type Splitters across Different Lithologies
Author: Jian Ma, Jiansheng Liu, Xingjun Hong, Tianye Liu, Zhanyou Luo, Xiaoquan Li, Chenhao Wu
106,112
Abstract: To study the influence of lithology on rock fragmentation during double-borehole splitting with a plunger-type splitter, the Discrete Element Method (DEM) was employed to simulate fracturing processes across various rock strengths. The results indicate that: (1) Rock splitting resistance enhances significantly with increasing strength, with the equivalent splitting force required for fragmentation rising from 329.2 kN for soft rock to 4316.1 kN for hard rock. Rock splitting resistance enhances s...
OPEN ACCESS
DOI : https://doi.org/10.70114/acmsr.2026.7.1.P113
Data-Driven Identification of Rail Impedance Parameters in Urban Rail Transit Systems
Author: Yutong Liu, Haotong Zhang
113,119
Abstract: Accurate rail impedance parameters are essential for reliable stray current simulation in urban rail transit systems. In practice, these parameters are often determined using empirical values, which may deviate from actual operating conditions. This paper proposes a data-driven method for identifying rail impedance parameters using measured operational data. A return current model of the DC traction power supply system is established, and a rail impedance identification model is developed based ...
OPEN ACCESS
DOI : https://doi.org/10.70114/acmsr.2026.7.1.P120
Conflict Mitigation for Multi-Bus Green-Wave Operation in a Vehicle–Road–Cloud System
Author: Jiahao Dong
120,127
Abstract: This paper proposes a conflict mitigation method for multi-bus green-wave operation at urban intersections based on a vehicle-road-cloud platform. The method builds a closed-loop framework covering perception, communication, prediction, decision making, and execution. Real-time trajectory prediction, dynamic priority arbitration, and target-point speed guidance are integrated to coordinate buses that approach the same signalized corridor within a short time. Field experiments on the Jialingjiang...
OPEN ACCESS
DOI : https://doi.org/10.70114/acmsr.2026.7.1.P128
Data-driven impedance identification of AC catenary
Author: Haotong Zhang, Yutong Liu
128,135
Abstract: The accuracy of catenary impedance identification directly determines the reliability of traction power supply system relay protection and the precision of power supply capability assessment. Traditional impedance identification methods rely on static models and idealized assumptions, making them inadequate for complex scenarios under dynamic vehicle-network coupling conditions. This paper proposes a data-driven catenary impedance identification framework for both direct power supply systems and...
OPEN ACCESS
DOI : https://doi.org/10.70114/acmsr.2026.7.1.P136
Fast AI Autofocus for Near-Eye Display Testing: A Solution for Shallow Depth of Field and Large Focusing Range
Author: Zichen Zhang
136,141
Abstract: In recent years, the rapid development of Extended Reality (XR) technologies, including Augmented Reality (AR) and Virtual Reality (VR), has led to an increasing demand for high-precision testing of near-eye display (NED) devices. These devices require accurate autofocus mechanisms due to challenging optical conditions such as small depth-of-field (DoF) and large focus travel. Traditional autofocus methods, reliant on manual experience or contrast-based algorithms, are inefficient and unstable u...
OPEN ACCESS
DOI : https://doi.org/10.70114/acmsr.2026.7.1.P142
Analysis of Cooperative Adaptive Lane Changing Based on C-V2X/Optical Ethernet Architecture
Author: Wanke Cao, Zusen Hou, Chunguang Guo, Bao Zha, Jiaming Lin, Zhenglong Zhu
142,148
Abstract: To address the limitations of traditional in-vehicle electrical communication in supporting cooperative adaptive lane changing (CALC) for connected and autonomous vehicles (CAVs), this paper proposes a solution integrating optical Ethernet and a communication scheduling strategy. A central-zonal electronic and electrical (E/E) architecture with optical Ethernet as the backbone is designed to provide high-speed, anti-interference data transmission. A link delay analysis model is established to ch...
OPEN ACCESS
DOI : https://doi.org/10.70114/acmsr.2026.7.1.P149
Research on Seismic Analysis and Reinforcement Calculation of a Plant Structure Based on ANSYS
Author: Minglei Xie, Yi Wang
149,155
Abstract: In this paper, ANSYS finite element software is used to calculate a plant (ET plant), and the MASS21 element is used to simulate the effect of the upper 400t pool on the structure, and the boundary spring element is used to simulate the dynamic interaction between soil and structure. The modal analysis and spectral analysis of the ET plant were carried out, and finally the seismic analysis results were processed and the reinforcement calculation was carried out to provide a basis for the design ...