A waste water reuse engineering was designed and then operated in Hongshan, a small town in ZhejiangProvince, China, in order to solve pollution and shortage of water resources due to the development of ruralenterpris...A waste water reuse engineering was designed and then operated in Hongshan, a small town in ZhejiangProvince, China, in order to solve pollution and shortage of water resources due to the development of ruralenterprises. The results showed that series-structure design and cycling model were two effective modes ofsaving water and decreasing pollutants into environment, and wetland strategy should be a component partof the integrated planning for waste water reuse of rural enterprises. This case study could provide a basisfor the optimum utilization and pollution avoidance of water resources.展开更多
Apparent moisture sink and water vapor transport flux are calculated by using NCAR/NCEP reanalyzed daily data for water vapor and wind fields at various levels from 1980 to 1989.With the aid of EOF analysis method,tem...Apparent moisture sink and water vapor transport flux are calculated by using NCAR/NCEP reanalyzed daily data for water vapor and wind fields at various levels from 1980 to 1989.With the aid of EOF analysis method,temporal and spatial characteristics of moisture budgets over Asian and Australian monsoon regions are studied.The results show that there is apparent seasonal transition of moistrue sink and water vapor transport between Asian monsoon region and Australian monsoon region.In winter,the Asian monsoon region is a moisture source,in which three cross-equatorial water vapor transport channels in the 'continent bridge',at 80°E and 40°E~50° transport water vapor to the Australian monsoon region and southern Indian Ocean which are moistrue sinks.In summer,Australian Monsoon region anmd southern Indian Ocean are moistrue sources and by the three cross-equatorial transport channels water vapor is transport to the Asian monsoon region which is a moisture sink.In spring and autumn,ITCZ is the main moisture sink and there is no apparent water vapor transport between Asian monsoon region and Australian monsoon region.展开更多
The method of utilizing rain water has been well developed in foreign countries to realize the sustainable development of water recourse while the method is still at the initial level in China. When considering the in...The method of utilizing rain water has been well developed in foreign countries to realize the sustainable development of water recourse while the method is still at the initial level in China. When considering the increasing of water shortage and urban flood, the awareness of utilizing rain water, as an inevitable trend, has been applied to various engineering technologies. This article has analyzed the principle of conventional road drainage system and the application of artificial wetland technology, also proposed to combine the road drainage system and artificial wetland, as a complex drainage system, to utilize the urban rain water, decrease urban flood pressure, and improve urban micro environment. The calculation principle and method for the complex drainage system are included as well.展开更多
Xinghua Duotian Agrosystem is a raised ifeld agriculture system with typical water-land utilization. It was identiifed as a Globally Important Agricultural Heritage Systems (GIAHS) site by FAO in April 2014. Based o...Xinghua Duotian Agrosystem is a raised ifeld agriculture system with typical water-land utilization. It was identiifed as a Globally Important Agricultural Heritage Systems (GIAHS) site by FAO in April 2014. Based on a literature review and ifeld investigations, we analyzed the history and development, structure and characteristics, functions and values of the Xinghua Duotian Agrosystem in this research. The system has a long history, rich biodiversity, important ecosystem services, traditional adapted agricultural technologies and a folk culture. Altogether, these features form an attractive landscape created by its special water-land utilization. It also has great importance for the livelihood maintenance of the local people. However, the inheritance and conservation effort of Xinghua Duotian Agrosystem is facing great threats from modern agriculture, urbanization and labor loss. This paper wil provide insight into the Xinghua Duotian Agrosystem, and provide scientiifc support for the conservation and development of this special system. It will also provide a good example for similar areas in China and worldwide.展开更多
文摘A waste water reuse engineering was designed and then operated in Hongshan, a small town in ZhejiangProvince, China, in order to solve pollution and shortage of water resources due to the development of ruralenterprises. The results showed that series-structure design and cycling model were two effective modes ofsaving water and decreasing pollutants into environment, and wetland strategy should be a component partof the integrated planning for waste water reuse of rural enterprises. This case study could provide a basisfor the optimum utilization and pollution avoidance of water resources.
基金Part One in Development Planning for National Key Fundamental Research (G1998040900)"South China Sea Monsoon Experiment Studies"caling Project A of National Ministry of Science and Technology
文摘Apparent moisture sink and water vapor transport flux are calculated by using NCAR/NCEP reanalyzed daily data for water vapor and wind fields at various levels from 1980 to 1989.With the aid of EOF analysis method,temporal and spatial characteristics of moisture budgets over Asian and Australian monsoon regions are studied.The results show that there is apparent seasonal transition of moistrue sink and water vapor transport between Asian monsoon region and Australian monsoon region.In winter,the Asian monsoon region is a moisture source,in which three cross-equatorial water vapor transport channels in the 'continent bridge',at 80°E and 40°E~50° transport water vapor to the Australian monsoon region and southern Indian Ocean which are moistrue sinks.In summer,Australian Monsoon region anmd southern Indian Ocean are moistrue sources and by the three cross-equatorial transport channels water vapor is transport to the Asian monsoon region which is a moisture sink.In spring and autumn,ITCZ is the main moisture sink and there is no apparent water vapor transport between Asian monsoon region and Australian monsoon region.
文摘The method of utilizing rain water has been well developed in foreign countries to realize the sustainable development of water recourse while the method is still at the initial level in China. When considering the increasing of water shortage and urban flood, the awareness of utilizing rain water, as an inevitable trend, has been applied to various engineering technologies. This article has analyzed the principle of conventional road drainage system and the application of artificial wetland technology, also proposed to combine the road drainage system and artificial wetland, as a complex drainage system, to utilize the urban rain water, decrease urban flood pressure, and improve urban micro environment. The calculation principle and method for the complex drainage system are included as well.
基金National Natural Science Fund of China (31200376)Chinese Academy of Sciences Visiting Professorship for Senior International Scientists (2013T2Z0011)
文摘Xinghua Duotian Agrosystem is a raised ifeld agriculture system with typical water-land utilization. It was identiifed as a Globally Important Agricultural Heritage Systems (GIAHS) site by FAO in April 2014. Based on a literature review and ifeld investigations, we analyzed the history and development, structure and characteristics, functions and values of the Xinghua Duotian Agrosystem in this research. The system has a long history, rich biodiversity, important ecosystem services, traditional adapted agricultural technologies and a folk culture. Altogether, these features form an attractive landscape created by its special water-land utilization. It also has great importance for the livelihood maintenance of the local people. However, the inheritance and conservation effort of Xinghua Duotian Agrosystem is facing great threats from modern agriculture, urbanization and labor loss. This paper wil provide insight into the Xinghua Duotian Agrosystem, and provide scientiifc support for the conservation and development of this special system. It will also provide a good example for similar areas in China and worldwide.
