摘要
目前大部分水质监测系统都为定点监测,后期维护成本较高,操作不便,且无法反馈污染源信息。此外,水域监控也存在盲区,致使人员溺亡事件和海事事故时有发生。研究提出一种新型双体船的结构设计,能够搭载水质检测仪器在水库、河流及湖泊进行单独部署,也能够通过船载摄像头及定位系统完成实时影像传输同位置反馈,太阳能风能混合动力系统使船体始终保持工作状态。在零维护成本,无人力消耗的基础上,完成水质监测、水域监控、水面搜救,船舶检查等任务。
At present, most of the water quality monitoring systems was fixed point monitoring, whose later maintenance costs would be higher, the operation was inconvenient, and the pollution source information could not be feedback. In addition, there were blind areas of water surveillance, resulting in personnel drowning events and maritime accidents occurred occasionally. A new structure design of catamaran was proposed, which was capable of carrying water testing equipment to deploy in reservoirs, rivers and lakes separately. The real-time image transmission and location feedback could also be achieved through the on-board camera and positioning system. The ship body was always in good working condition with solar and wind hybrid power system. On the basis of zero maintenance cost and no manpower consumption, the tasks of water quality monitoring, water monitoring, water surface search and rescue, ship inspection and other tasks were completed.
作者
范家栋
叶安琪
FAN Jiadong;YE Anqi(College of Hydraulic, Energy and Power Engineering, Yangzhou University, Yangzhou 225009, Jiangs)
出处
《江苏水利》
2017年第12期7-10,共4页
Jiangsu Water Resources
关键词
太阳能
风能
混合动力
双体船
solar energy
wind energy
hybrid
catamaran