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1. Green and Intelligent High-Tech Ships: Development and Key Technologies (绿色智能高技术船舶发展与关键技术)
- Overall design and integration technologies for green and intelligent ships (绿色智能船舶总体设计与集成技术)
- Independent development and localization of key supporting equipment for green and intelligent ships (绿色智能船舶核心配套设备自主化与国产化)
- New design concepts for naval vessels / commercial ships and transformation of generic technologies (军舰/民船设计新理念与共性技术转化)
- Impact of new fuels / new maritime regulations (CII, EEDI, EEOI, etc.) on ship design philosophy (新燃料/新海事法规(CII、EEDI、EEOI等)对船舶设计理念的变革)
- Innovative design technologies for intelligent ships (智能船创新设计技术)
2. Advanced Ship Form Design Technologies (先进船型设计技术)
- Low-resistance and high-efficiency ship form design technologies (低阻高效船型设计技术)
- Integrated energy efficiency optimization technologies considering wind and waves (考虑风浪的综合能效优化技术)
- Multidisciplinary design optimization (MDO) of unmanned surface vessels (USVs) / unmanned underwater vehicles (UUVs) (无人船/无人潜器的多学科优化设计)
- Digital design theories and methods for ships (船舶数字化设计理论与方法)
- Application of large AI models in ship form design (AI大模型在船型设计中的应用)
3. Green and Intelligent Shipbuilding (船舶绿色与智能制造)
- New intelligent manufacturing processes and equipment (intelligent welding, cutting, forming, coating and surface treatment, etc.) (智能建造工艺与装备新技术(智能焊接、切割、成形加工、涂装与表面等))
- Application of digital twin technology throughout the ship lifecycle (数字孪生技术在船舶全生命周期中的应用)
- High-efficiency welding technologies and applications for ships (船舶高效焊接技术与应用)
- Intelligent transformation practices in ship final assembly and construction (船舶总装建造智能化转型实践)
- Shipbuilding accuracy control and quality management (造船精度控制与质量管理)
- Application of additive manufacturing in ship spare parts and structural components (增材制造在船舶备件与结构件中的应用)
4. Green Marine Equipment and Materials (绿色船舶配套设备与材料)
- New energy-saving propulsion devices for ships (新型船用节能推进装置)
- Waste heat recovery and integrated energy utilization on ships (船舶余热回收与能量综合利用)
- Development and application of new anti-corrosion, sealing, and lightweight materials (防腐、密封、轻量化新材料的研发与应用)
- Ship pollutant treatment technologies and supporting environmental protection equipment (船舶污染物处理技术与配套环保设备)
5. Propulsion Energy-Saving Technologies and Applications (推进节能技术及应用)
- Novel propulsion technologies: podded drives, rim-driven thrusters, waterjet propulsion, cycloidal propellers, contra-rotating propellers, etc. (吊舱、轮缘、喷水、直翼、环形螺旋桨等新型推进器技术)
- Mechanical issues of new-material propellers and cavitation erosion prediction (新材料螺旋桨力学问题与空蚀预测)
- Full-scale cavitation observation and suppression techniques (实船空泡观测与抑制技术)
- Application of pre-swirl and post-swirl energy-saving devices (桨前桨后节能系统应用)
- Ship coating drag reduction technology (船舶涂层减阻技术)
- Sail propulsion / Flettner rotor (wind-assisted rotor propulsion) technology (风帆推进/风力转子助推技术)
6. Speed Performance and Cavitation Prediction Technologies (快速性与空泡性能预报技术)
- Real-ship speed performance prediction in wind and wave environments (风浪环境下实船快速性能预报技术)
- Prediction and control of propeller cavitation performance (推进器空泡性能的预报与控制)
- Advanced experimental techniques and CFD methods (先进试验技术和CFD技术)
- Comprehensive metrological calibration techniques for ship hydrodynamic measurements (船舶水动力测量综合计量校准技术)
- Full-scale ship speed measurement and correction techniques (实船航速测量和修正技术)
- Fine flow field measurement and feature recognition techniques (精细流场测量和特征识别技术)
- Intelligent technologies for performance prediction (性能预报的智能化技术)
7. Zero-Carbon / Low-Carbon Fuel Power Technologies (零碳/低碳燃料动力技术)
- Application practices and challenges of zero-carbon fuels (methanol, ammonia, hydrogen) for ships (甲醇、氨、氢等零碳燃料船舶应用实践与挑战)
- Optimization of LNG power systems and emission control technologies (LNG动力系统优化与排放控制技术)
- Application of fuel cell technology on ships (燃料电池技术在船舶上的应用)
- Hybrid power systems and energy management strategies (混合动力系统及能量管理策略)
- Shipboard carbon capture, utilization, and storage (CCUS) technologies (船舶碳捕集、利用与封存技术)
8. Application of AI and Digital Technologies in the Shipbuilding Industry (AI与数字技术在船舶工业中的应用)
- Application of artificial intelligence in ship design optimization (人工智能在船舶设计优化中的应用)
- Digital twin and intelligent ship operation and maintenance (数字孪生与船舶智能运维)
- Intelligent engine room and health management for ships (船舶智能机舱与健康管理)
- Big data analysis and application in the shipbuilding industry (船舶工业大数据分析与应用)
9. Marine Environmental Loads and Hydrodynamics Research (船海环境载荷与水动力研究)
- Influence of wave environment on motions and responses of ships and offshore structures (波浪环境对船舶与海洋结构物运动和响应的影响)
- Ship motion and load analysis (船舶运动与载荷分析)
- Extreme wave loads and ship motion responses (极端波浪载荷与船舶运动响应)
- Fluid-structure interaction problems for ship and offshore structures (船海结构流固耦合问题)
10. Other Green and Intelligent Technologies Related to Ship and Ocean Engineering (其他船海工程相关绿色智能技术)
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| This theme focuses on key technological breakthroughs in next-generation green and intelligent high-performance marine vessels. It explores how low-carbon emissions can be achieved through innovative hull designs, advanced propulsion systems (such as hydrogen power, ammonia fuel, and electric hybrids), intelligent energy efficiency management, etc., as well as how artificial intelligence, big data, and autonomous control technologies can be utilized to enhance navigation efficiency, safety, and autonomy. The aim is to bring together global scholars to create a premier interdisciplinary platform and to address the coupling challenges between high speed, low resistance, energy efficiency, and intelligent perception and decision-making. Moreover, we will discuss how to drive the shipping industry towards a more sustainable, safer, and more efficient future. The theme is dedicated to provide scientific insights and solutions for the green and smart transition of the shipping industry. |