Agriculture is the major activity in the state of Haryana and large volume of water is required to meet the irrigation demands of the crops grown. But, there is limited water availability in the state. Haryana receive...Agriculture is the major activity in the state of Haryana and large volume of water is required to meet the irrigation demands of the crops grown. But, there is limited water availability in the state. Haryana receives water from Yamuna River and Bhakra system. Sowmelt, rainfall and groundwater are main sources of water in the catchment. It is essential to integrate the manmade canal system with hydrological system. This paper focuses on integrated hydrological modeling framework to conceptualize the system and to assess the Water Resources of the state. Snowmelt and Rainfall runoff modeling using GR4JSG model were combined to model the inflows to the irrigation system of Haryana. Irrigator canal model of eWater Source has been used to generate water demands from crops grown. The water balance and water use efficiency have been worked out for each district of Haryana. The hydro climate input data, stream flows, crop data and soil data have been used in the study. The flows modeled at Tuini (P), Yashwant Nagar, Bausan, Haripur, Poanta and HKB sites were compared with the observed flows. The objective function of NSE Daily and log Flow duration was used for model calibration and validation at various locations up to Mathura, the outlet of the study area. The value of the objective function at Mathura was 0.54, a fairly good value. The results of the Irrigator canal model have shown that all the Inflows, Outflows and the Utilizations of water have been properly balanced for each district. The water use efficiency of districts varies from 27% to 59%. The overall water use efficiency for Haryana canal system has been calculated as 39%. This is low value indicating excess water is being extracted to meet the water demands.展开更多
分析了某公司的2#乙二醇R-120环氧乙烷反应器中C-11环焊缝开裂原因。对开裂C-11环焊缝开展了化学成分、金相观察、硬度测试、断口微观观察、EDS能谱分析等试验研究。试验发现:壳程、管板母材和焊缝金属化学成分分别满足SA543 Type B CL....分析了某公司的2#乙二醇R-120环氧乙烷反应器中C-11环焊缝开裂原因。对开裂C-11环焊缝开展了化学成分、金相观察、硬度测试、断口微观观察、EDS能谱分析等试验研究。试验发现:壳程、管板母材和焊缝金属化学成分分别满足SA543 Type B CL.1,SA508 Gr.4N CL.1和MGS 80的要求;从内壁管板侧热影响区起裂的主裂纹穿晶扩展,裂纹尖端沿晶扩展并有分叉,具有应力腐蚀裂纹特征;内壁附近焊缝两侧热影响区局部有马氏体组织;管板侧热影响区硬度最高为466.3 HV10;断口观察发现裂纹在内壁产生,是多源裂纹,沿壁厚向外壁扩展15 mm,断口上有冰糖状等轴晶和柱状晶;裂纹断口探测到P和Na元素。该反应器开裂原因是由于焊接导致在管板与壳程焊接区域存在较高的残余应力,在高温锅炉水介质中,发生了应力腐蚀开裂,由内壁向外扩展,最终导致泄漏。展开更多
文摘Agriculture is the major activity in the state of Haryana and large volume of water is required to meet the irrigation demands of the crops grown. But, there is limited water availability in the state. Haryana receives water from Yamuna River and Bhakra system. Sowmelt, rainfall and groundwater are main sources of water in the catchment. It is essential to integrate the manmade canal system with hydrological system. This paper focuses on integrated hydrological modeling framework to conceptualize the system and to assess the Water Resources of the state. Snowmelt and Rainfall runoff modeling using GR4JSG model were combined to model the inflows to the irrigation system of Haryana. Irrigator canal model of eWater Source has been used to generate water demands from crops grown. The water balance and water use efficiency have been worked out for each district of Haryana. The hydro climate input data, stream flows, crop data and soil data have been used in the study. The flows modeled at Tuini (P), Yashwant Nagar, Bausan, Haripur, Poanta and HKB sites were compared with the observed flows. The objective function of NSE Daily and log Flow duration was used for model calibration and validation at various locations up to Mathura, the outlet of the study area. The value of the objective function at Mathura was 0.54, a fairly good value. The results of the Irrigator canal model have shown that all the Inflows, Outflows and the Utilizations of water have been properly balanced for each district. The water use efficiency of districts varies from 27% to 59%. The overall water use efficiency for Haryana canal system has been calculated as 39%. This is low value indicating excess water is being extracted to meet the water demands.
文摘分析了某公司的2#乙二醇R-120环氧乙烷反应器中C-11环焊缝开裂原因。对开裂C-11环焊缝开展了化学成分、金相观察、硬度测试、断口微观观察、EDS能谱分析等试验研究。试验发现:壳程、管板母材和焊缝金属化学成分分别满足SA543 Type B CL.1,SA508 Gr.4N CL.1和MGS 80的要求;从内壁管板侧热影响区起裂的主裂纹穿晶扩展,裂纹尖端沿晶扩展并有分叉,具有应力腐蚀裂纹特征;内壁附近焊缝两侧热影响区局部有马氏体组织;管板侧热影响区硬度最高为466.3 HV10;断口观察发现裂纹在内壁产生,是多源裂纹,沿壁厚向外壁扩展15 mm,断口上有冰糖状等轴晶和柱状晶;裂纹断口探测到P和Na元素。该反应器开裂原因是由于焊接导致在管板与壳程焊接区域存在较高的残余应力,在高温锅炉水介质中,发生了应力腐蚀开裂,由内壁向外扩展,最终导致泄漏。