SPONSOR Chinese Society of Oceanography (CSO)CO-SPONSORS State Oceanic Administration of China Chinese Association of Petroleum Equipment Ministry of Construction of China Ministry of Communications of China Ministry ...SPONSOR Chinese Society of Oceanography (CSO)CO-SPONSORS State Oceanic Administration of China Chinese Association of Petroleum Equipment Ministry of Construction of China Ministry of Communications of China Ministry of Agriculture of China Chinese Academy of Ships China International Conference Center for Science and Technology Yuanfeng Co-operative Advisory Ltd. Co展开更多
The colonization of underwater environments by exotic seaweeds is causing major ecological problems around the world.This project,referred to AMALIA,aims to transform this current ocean threat into an opportunity by a...The colonization of underwater environments by exotic seaweeds is causing major ecological problems around the world.This project,referred to AMALIA,aims to transform this current ocean threat into an opportunity by adding value to the macroalgae present off the northwest of the Iberian Peninsula.To do so and to observe the presence of seaweeds in situ,an ocean modular submersible platform was developed.This platform was designed to be capable of detecting and surveying surges of invasive seaweeds while withstanding sea conditions.Conceptual designs followed by a screening process were performed,taking into consideration criteria such as operational range and modularity.An open-frame lander was considered and further developed using buckling criteria.In parallel,a state-of-the-art monitoring system was created using spectral imaging,allowing for the future creation of a macroalgae identification system.In addition,sensorial systems for characterizing growth conditions were introduced.Laboratory trials were executed to assess the capability of the system,and sea trials are currently being performed.Numerical simulations and laboratory trials indicate that the structure is fully capable of being deployed for shallow-water environments with a state-of-the-art invasive seaweed monitoring system while maintaining a high degree of modularity.展开更多
In 1999,the first International Workshop on Ship Hydrodynamics was successfully held in Wuhan,China.Then it was held in Wuhan,Shanghai,Zhenjiang,Harbin,Seoul in subsequent every two years.These Conferences had drawn a...In 1999,the first International Workshop on Ship Hydrodynamics was successfully held in Wuhan,China.Then it was held in Wuhan,Shanghai,Zhenjiang,Harbin,Seoul in subsequent every two years.These Conferences had drawn a variety of international delegates including scientists,engineers and researchers with a common interest in ship hydrodynamics.They provided a forum to promote scientific advancement,technological progress,information exchange,and cooperation among engineers and researchers in ship and ocean engineering and other related fields.The coming IWSH’2015 conference will change its full name to International Workshop on Ship and Marine Hydrodynamics.It will be hosted and organized by University of Strathclyde,UK and sponsored by Lloyd’s Register,UK.The IWSH’2015 will be a platform for engineers and researchers to keep abreast展开更多
文摘SPONSOR Chinese Society of Oceanography (CSO)CO-SPONSORS State Oceanic Administration of China Chinese Association of Petroleum Equipment Ministry of Construction of China Ministry of Communications of China Ministry of Agriculture of China Chinese Academy of Ships China International Conference Center for Science and Technology Yuanfeng Co-operative Advisory Ltd. Co
基金supported by the European Union under Grant No. EASME/EMFF/2016/1.2.1.4/03/SI2.750419the AMALIA-Algae-to-Market Lab Ideas Project。
文摘The colonization of underwater environments by exotic seaweeds is causing major ecological problems around the world.This project,referred to AMALIA,aims to transform this current ocean threat into an opportunity by adding value to the macroalgae present off the northwest of the Iberian Peninsula.To do so and to observe the presence of seaweeds in situ,an ocean modular submersible platform was developed.This platform was designed to be capable of detecting and surveying surges of invasive seaweeds while withstanding sea conditions.Conceptual designs followed by a screening process were performed,taking into consideration criteria such as operational range and modularity.An open-frame lander was considered and further developed using buckling criteria.In parallel,a state-of-the-art monitoring system was created using spectral imaging,allowing for the future creation of a macroalgae identification system.In addition,sensorial systems for characterizing growth conditions were introduced.Laboratory trials were executed to assess the capability of the system,and sea trials are currently being performed.Numerical simulations and laboratory trials indicate that the structure is fully capable of being deployed for shallow-water environments with a state-of-the-art invasive seaweed monitoring system while maintaining a high degree of modularity.
文摘In 1999,the first International Workshop on Ship Hydrodynamics was successfully held in Wuhan,China.Then it was held in Wuhan,Shanghai,Zhenjiang,Harbin,Seoul in subsequent every two years.These Conferences had drawn a variety of international delegates including scientists,engineers and researchers with a common interest in ship hydrodynamics.They provided a forum to promote scientific advancement,technological progress,information exchange,and cooperation among engineers and researchers in ship and ocean engineering and other related fields.The coming IWSH’2015 conference will change its full name to International Workshop on Ship and Marine Hydrodynamics.It will be hosted and organized by University of Strathclyde,UK and sponsored by Lloyd’s Register,UK.The IWSH’2015 will be a platform for engineers and researchers to keep abreast
