At the award conference of the Science and Technology Commission of Shanghai Municipality held on March 22, the project “R&D and Application of High-quality Crab Ecological Breeding Techniques Based on Whole-process Compound Feed and Nutrient Regulation”, completed under the leadership of SHOU Professor Cheng Yongxu, was granted the first prize of Shanghai Award for Science and Technology Progress 2016; the project “Co-processing Techniques and Major Engineering Applications of Spatio-Temporal Big Data Storm Surge Disasters”, completed under the leadership of Professor Huang Dongmei, was granted the second prize of Shanghai Award for Science and Technology Progress 2016; the project “Critical Technology R&D and Equipment Innovation for the Low-temperature Logistics of Aquatic Products”, completed under the leadership of Professor Xie Jing, was granted the third prize of Shanghai Technological Invention Award 2016.
The project “R&D and Application of High-quality Crab Ecological Breeding Techniques Based on Whole-process Compound Feed and Nutrient Regulation” takes whole-process compound feed and nutrient regulation as its thread to conduct a systematic and in-depth research, elaborates the theoretical relationship between feed & nutrient regulation and high-quality breeding”, reveals the main sources of crabs’ flavor substances and taste substances, supplements and completes the nutrient demand atlases of crabs in various breeding stages, and comprehensively constructs a high-quality crab ecological breeding technique system based on whole-process feed regulation. The project has obtained 20 patents and one software copyright, and has established two local standards and published 131 papers (39 included by SCI). The achievements of the program have not only been promoted in large scale in the main breeding areas of the middle and lower reaches of the Yangtze River, but also been applied in Taiwan, Guizhou, Yan’an and many other regions of our country. In the last three years, it has promoted its breeding techniques in a cumulative total area of 1,097,000 mu, newly increased its output value by 2.27 billion RMB, and achieved significant social and economic benefits.
The project “The collaborative processing of temporal-spatial tide data for significant engineering applications ” targets the compilation and optimization of high-quality numerical forecast schemes for storm tide disasters. With a decade of industry-university-research joint efforts, breakthroughs have been made in “acquisition of storm tide evolution information”, “cloud storage of massive multi-source heterogeneous data on storm tide disasters”, “collaborative computing of storm tide disaster analysis models” and a series of other critical techniques. This project overcame the difficulty of information acquisition before the storm tide disaster forecast period, enhanced data sharing and exchange capability, and elevated the multi-granularity collaborative computing capability for big data on storm tide disasters of our country to an internationally leading level. The project has obtained four patents and 47 software copyrights, and has published one treatise, 24 SCI papers and 36 EI papers. The achievements of the program have been promoted in more than 20 marine related enterprises and institutions in the East China Sea, the North Sea, the South China Sea and other important sea area. It has played a significant role in the environment monitoring, storm tide and nearshore wave disasters forecast and prediction, improved China's marine disaster prevention and mitigation capacity, and achieved great social benefits and potential economic benefits.
The project “Innovation& Development on KeyTechnology & Equipment of Aquatic ProductLow Temperature Logistics” focuses on both the high loss problem of aquatic products in the circulation process and the high energy consumption problem of refrigerating equipment on which the circulation is based; it systematically explores the quality deterioration rule of aquatic products in the circulation process, proposes a novel ice preservation technique, probes into the stress reactions of fishes in the low-temperature waterless keeping-alive process, reveals the low-temperature waterless keeping-alive mechanism, and proposes the devices for the waterless keeping-alive process and commercial sales of fishes. It has also constructed a multi-physics flow field coupling model for cold chain devices, and realized the real-time quality and safety monitoring of aquatic products in low-temperature circulation. The project has obtained eight invention patents, 15 utility model patents and five software copyrights, and has published a cumulative total of 121 papers (39 included by SCI and EI) and two treatises.