[1] 波能发电设备研发及在海事的应用研究(交通运输部海事局科技项目,编号:2012_26,参与)
[2] 基于仿生通风理论的船舶机舱自然空调研究(辽宁省教育厅科研项目,编号:L2015066,参与)
[1] Gao Hongtao, Li Biao. Establishment of Motion Model for Wave Capture Buoy and Research on Hydrodynamic Performance of Floating-Type Wave Energy Converter. Polish Maritime Research. 2015, 22: 106-111.(SCI、EI检索)
[2] Li Biao, Gao Hongtao. Numerical study on the NOX emission reduction mechanism of HCCI marine diesel engines for IMO Tier III emission Limits. RINA-International Journal of Maritime Engineering. 2017, 159, A2: A139-A148. (SCI、EI检索)
[3] Gao Hongtao, Guan Shifei, Li Biao, Zhang Lei, Wang Yongyi. Optimization Research on the Hydraulic Conversion System in a Floating-Type Wave Energy Converter. Energy Education Science and Technology Part A: Energy Science and Research. 2014, 32(6): 5521-5530.(EI检索)
[4] Li Biao, Gao Hongtao. Impact Analysis of Geometry Parameters of Buoy on the Pitching Motion Mechanism and Power Response for Multi-section Wave Energy Converter. Advances in Intelligent Systems and Computing, 2017, 686: 316-322.(EI检索)
[5] Li Biao, Gao Hongtao. Establishment of combustion model for isooctane HCCI marine diesel engine and research on the combustion characteristic. MATEC Web of Conferences. 2016, 61: 02028.(EI检索)
[6] 高洪涛,李彪. 多节漂浮式波能转换装置浮体运动及功率响应. 大连海事大学学报. 2016, 42 (1): 45-50.
[7] 高洪涛,李彪,宋玉超. PTO系统对多节漂浮式波浪能转换装置运动和能量响应的计算分析. 船海工程.
[8] Li Biao, Gao Hongtao. Motion Analysis and Power Responses of a Single-buoy Wave Energy Converter Consisting of Double Hydraulic Cylinders. Advances in Engineering Research, 2015, 12: 1999-2005.
[9] Li Biao, Gao Hongtao. Analytical Research of Buoy Motion and Power Response of the Floating-type Double-hinged Wave Energy Converter. Advances in Engineering Research, 2016, 46: 555-558.
[10] Gao Hongtao, Li Biao. Response and Conversion Efficiency Optimization of the Floating-type Double-hinged Wave Energy Converter. 2015 4th International Conference on Energy and Environmental Protection, DEStech Publications, 2015, 4682-4689.
[11] Gao Hongtao, Zou Jin, Li Biao. Simulating Investigation on the Motion and Power Response of Double Raft Wave Energy Capturer with Different Shapes. 2017 International Conference on Energy, Power and Environmental Engineering, DEStech Publications, 2017.
[12] Gao Hongtao, Xue Xin, Zou Jin, Li Biao. Experimental research on asynchronous wave energy power generation system. Advances in Engineering Research, 2016, 79: 684-688.
[1] 波能发电设备研发及在海事的应用研究(交通运输部海事局科技项目,编号:2012_26,参与)
[2] 基于仿生通风理论的船舶机舱自然空调研究(辽宁省教育厅科研项目,编号:L2015066,参与)
[1] Gao Hongtao, Li Biao. Establishment of Motion Model for Wave Capture Buoy and Research on Hydrodynamic Performance of Floating-Type Wave Energy Converter. Polish Maritime Research. 2015, 22: 106-111.(SCI、EI检索)
[2] Li Biao, Gao Hongtao. Numerical study on the NOX emission reduction mechanism of HCCI marine diesel engines for IMO Tier III emission Limits. RINA-International Journal of Maritime Engineering. 2017, 159, A2: A139-A148. (SCI、EI检索)
[3] Gao Hongtao, Guan Shifei, Li Biao, Zhang Lei, Wang Yongyi. Optimization Research on the Hydraulic Conversion System in a Floating-Type Wave Energy Converter. Energy Education Science and Technology Part A: Energy Science and Research. 2014, 32(6): 5521-5530.(EI检索)
[4] Li Biao, Gao Hongtao. Impact Analysis of Geometry Parameters of Buoy on the Pitching Motion Mechanism and Power Response for Multi-section Wave Energy Converter. Advances in Intelligent Systems and Computing, 2017, 686: 316-322.(EI检索)
[5] Li Biao, Gao Hongtao. Establishment of combustion model for isooctane HCCI marine diesel engine and research on the combustion characteristic. MATEC Web of Conferences. 2016, 61: 02028.(EI检索)
[6] 高洪涛,李彪. 多节漂浮式波能转换装置浮体运动及功率响应. 大连海事大学学报. 2016, 42 (1): 45-50.
[7] 高洪涛,李彪,宋玉超. PTO系统对多节漂浮式波浪能转换装置运动和能量响应的计算分析. 船海工程.
[8] Li Biao, Gao Hongtao. Motion Analysis and Power Responses of a Single-buoy Wave Energy Converter Consisting of Double Hydraulic Cylinders. Advances in Engineering Research, 2015, 12: 1999-2005.
[9] Li Biao, Gao Hongtao. Analytical Research of Buoy Motion and Power Response of the Floating-type Double-hinged Wave Energy Converter. Advances in Engineering Research, 2016, 46: 555-558.
[10] Gao Hongtao, Li Biao. Response and Conversion Efficiency Optimization of the Floating-type Double-hinged Wave Energy Converter. 2015 4th International Conference on Energy and Environmental Protection, DEStech Publications, 2015, 4682-4689.
[11] Gao Hongtao, Zou Jin, Li Biao. Simulating Investigation on the Motion and Power Response of Double Raft Wave Energy Capturer with Different Shapes. 2017 International Conference on Energy, Power and Environmental Engineering, DEStech Publications, 2017.
[12] Gao Hongtao, Xue Xin, Zou Jin, Li Biao. Experimental research on asynchronous wave energy power generation system. Advances in Engineering Research, 2016, 79: 684-688.
[1] 波能发电设备研发及在海事的应用研究(交通运输部海事局科技项目,编号:2012_26,参与)
[2] 基于仿生通风理论的船舶机舱自然空调研究(辽宁省教育厅科研项目,编号:L2015066,参与)
[1] 一种多维度单浮筒式波浪能转换装置.(发明专利,公开号:105626363)
[2] 一种具有发电功能的锚链与供电平台. (发明专利,公开号:106628035)
[1] Gao Hongtao, Li Biao. Establishment of Motion Model for Wave Capture Buoy and Research on Hydrodynamic Performance of Floating-Type Wave Energy Converter. Polish Maritime Research. 2015, 22: 106-111.(SCI、EI检索)
[2] Li Biao, Gao Hongtao. Numerical study on the NOX emission reduction mechanism of HCCI marine diesel engines for IMO Tier III emission Limits. RINA-International Journal of Maritime Engineering. 2017, 159, A2: A139-A148. (SCI、EI检索)
[3] Gao Hongtao, Guan Shifei, Li Biao, Zhang Lei, Wang Yongyi. Optimization Research on the Hydraulic Conversion System in a Floating-Type Wave Energy Converter. Energy Education Science and Technology Part A: Energy Science and Research. 2014, 32(6): 5521-5530.(EI检索)
[4] Li Biao, Gao Hongtao. Impact Analysis of Geometry Parameters of Buoy on the Pitching Motion Mechanism and Power Response for Multi-section Wave Energy Converter. Advances in Intelligent Systems and Computing, 2017, 686: 316-322.(EI检索)
[5] Li Biao, Gao Hongtao. Establishment of combustion model for isooctane HCCI marine diesel engine and research on the combustion characteristic. MATEC Web of Conferences. 2016, 61: 02028.(EI检索)
[6] 高洪涛,李彪. 多节漂浮式波能转换装置浮体运动及功率响应. 大连海事大学学报. 2016, 42 (1): 45-50.
[7] 高洪涛,李彪,宋玉超. PTO系统对多节漂浮式波浪能转换装置运动和能量响应的计算分析. 船海工程.
[8] Li Biao, Gao Hongtao. Motion Analysis and Power Responses of a Single-buoy Wave Energy Converter Consisting of Double Hydraulic Cylinders. Advances in Engineering Research, 2015, 12: 1999-2005.
[9] Li Biao, Gao Hongtao. Analytical Research of Buoy Motion and Power Response of the Floating-type Double-hinged Wave Energy Converter. Advances in Engineering Research, 2016, 46: 555-558.
[10] Gao Hongtao, Li Biao. Response and Conversion Efficiency Optimization of the Floating-type Double-hinged Wave Energy Converter. 2015 4th International Conference on Energy and Environmental Protection, DEStech Publications, 2015, 4682-4689.
[11] Gao Hongtao, Zou Jin, Li Biao. Simulating Investigation on the Motion and Power Response of Double Raft Wave Energy Capturer with Different Shapes. 2017 International Conference on Energy, Power and Environmental Engineering, DEStech Publications, 2017.
[12] Gao Hongtao, Xue Xin, Zou Jin, Li Biao. Experimental research on asynchronous wave energy power generation system. Advances in Engineering Research, 2016, 79: 684-688.
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