干旱区生态环境知识资源中心(Arid): 旱寒区输水渠道防渗抗冻胀研究进展与前沿

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	旱寒区输水渠道防渗抗冻胀研究进展与前沿
其他题名	Research progresses and frontiers in anti-seepage and anti-frost heave of canals in cold-arid regions
	王正中; 江浩源; 王羿; 刘铨鸿; 葛建锐
来源期刊	农业工程学报
ISSN	1002-6819
出版年	2020
卷号	36 期号:22
中文摘要	渠道在农业灌溉和长距离调水工程中作为首选输水形式发挥着重要的作用。但因旱寒区输水渠道渗漏与冻胀互为因果形成恶性循环,导致渠道渗漏、冻胀、隆起、架空、失稳滑塌等冻融老化破坏普遍且严重,直接影响工程输水效率及渠道的安全运行与效益发挥。该研究着重从探究渠道冻融破坏机理而进行的室内试验和现场原型监测、工程力学模型、水-热-力耦合数值模型及防渗抗冻胀技术等方面论述了旱寒区输水渠道防渗抗冻胀的研究进展;在此基础上,指出了太阳辐射、冻融、盐渍化等复杂环境及冬季输水、水位骤降等运行工况下的渠道多场耦合破坏机理及相应的多场耦合数值模型、衬砌-冻土相互作用模型、失效准则与设计方法、防渗抗冻胀措施标准化及渠道灾变过程与防控技术等渠道防渗抗冻胀有待研究的问题和难点;探讨了完善和提升旱寒区渠道防渗抗冻胀的设计理论与方法、建立全生命周期内的灾变链动态演变预警模型等未来发展方向及趋势,为旱寒区输水渠道工程科学设计与安全高效运行提供指导。
英文摘要	Canals, as the preferred form of water conveyance, play an important role in the agricultural irrigation and long-distance water diversion projects in arid regions. However, the arid regions are mainly distributed in the seasonal permafrost regions in China, namely arid-cold regions. Due to the interaction between the canal seepage and frost heave, the freeze-thaw aging damages are more severe and common. The field investigation shows that the failure forms of canals include seepage, swelling, uplift, overhead, instability and collapse, and limit the safe operation and performance of canals seriously. In this study, the research progresses of the theories and technologies of anti-seepage and anti-frost heave for canals in arid-cold areas were summarized. Firstly, the mechanism of freeze-thaw failure and failure mode for canals was analyzed by indoor unit experiments, model experiments and field monitoring. Secondly, the engineering mechanical models of canal frost heaving failure were introduced based on limit equilibrium theory, such as material mechanics model and elastic mechanics model. Thirdly, multi-field coupling numerical models were developed including coupled heat-mechanics model, heat-water-mechanics model and the interaction model between frozen soil and canal lining. Lastly, the development processes of anti-seepage and anti-frost heave technologies for canals were expounded from four aspects: 1) the thermal insulation and preservation technologies against the external low temperature on soil and heat loss; 2) the anti-seepage and drainage technologies to reduce water content and water migration in soil; 3) soil replacement with sand or gravel technologies; 4) force release technologies by section structure optimization. With the increase of canal scale and upgrading demand for disrepair canals in harsh environment, the frost heaving failure mode was complex. The research frontiers and technical difficulties in this study mainly included: 1) the multi-field coupling failure mechanism and failure mode in the complex environment, such as solar radiation, freeze-thaw cycles and salinization, and operation conditions, such as water conveyance in winter with or without ice cover and water level dropping; 2) further development of multi-field coupling simulation model based on coupled heat-water-mechanics model covered the following aspects: canal thermal boundary with solar radiation and convective heat transfer model considering section form; canal damage model of freeze-thaw deterioration considering frost heaving and thawing of soil to analyze canal slope collapse; viscoplastic damage model for contact surface according to experiment on interfacial strength and stress-strain characteristics of lining-separated ice-frozen soil under freeze-thaw cycles; effects of salt on parameters of moisture field, thermal field and mechanical field and coupled heat-water-mechanics-salt model; 3) the canal failure criterion determination including strength, stiffness and stability of structures combined with field monitoring and numerical model, then modified the engineering mechanical model from the aspects of frost heaving force and adfreezing force distribution and foundation coefficient, and eventually formed a set of design method using engineering mechanical model to design and numerical model to check; 4) moisture, temperature and displacement changes under different anti-seepage and anti-frost heave measures of canals and standardization design combined with experiments, failure criterion and numerical model; 5) the dynamic disaster process and prevention and control technologies of canals determination by the following methods: classified variables such as environmental factors, operating conditions, section forms and failure forms of canals based on the field monitoring data and numerical simulation results, and then established the relationship between the variables by neural network and other algorithms.
中文关键词	渠道 ; 模型 ; 旱寒区 ; 防渗抗冻胀 ; 多场耦合 ; 设计理论
英文关键词	canals models arid-cold regions anti-seepage and anti-frost heave multi-field coupling design theory
类型	Review
语种	中文
收录类别	CSCD
WOS类目	Engineering
CSCD记录号	CSCD:6906637
资源类型	期刊论文
条目标识符	http://119.78.100.177/qdio/handle/2XILL650/353692
作者单位	王正中, 西北农林科技大学旱区寒区水工程安全研究中心;;西北农林科技大学;;西北生态环境资源研究院, ;;旱区农业水土工程教育部重点实验室;;冻土工程国家重点实验室, 杨凌;;杨凌;;兰州, ;;;; 712100;;712100;;730000. 江浩源, 西北农林科技大学旱区寒区水工程安全研究中心;;西北农林科技大学, ;;旱区农业水土工程教育部重点实验室, 杨凌;;杨凌, ;; 712100;;712100. 王羿, 西北农林科技大学旱区寒区水工程安全研究中心;;西北农林科技大学, ;;旱区农业水土工程教育部重点实验室, 杨凌;;杨凌, ;; 712100;;712100. 刘铨鸿, 西北农林科技大学旱区寒区水工程安全研究中心;;西北农林科技大学, ;;旱区农业水土工程教育部重点实验室, 杨凌;;杨凌, ;; 712100;;712100. 葛建锐, 西北农林科技大学旱区寒区水工程安全研究中心;;西北农林科技大学, ;;旱区农业水土工程教育部重点实验室, 杨凌;;杨凌, ;; 712100;;712100.
推荐引用方式 GB/T 7714	王正中,江浩源,王羿,等. 旱寒区输水渠道防渗抗冻胀研究进展与前沿[J],2020,36(22).
APA	王正中,江浩源,王羿,刘铨鸿,&葛建锐.(2020).旱寒区输水渠道防渗抗冻胀研究进展与前沿.农业工程学报,36(22).
MLA	王正中,et al."旱寒区输水渠道防渗抗冻胀研究进展与前沿".农业工程学报 36.22(2020).