大流量预应力渡槽设计和施工技术研究
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摘要
将现代工程科学最新的并在土木工程其它领域中行之有效的理论、技术、材料、方法应用于大型渡槽设计和施工技术的研究过程之中,同时结合典型工程开展理论分析、模型试验和现场原型试验研究,对当前设计和施工中提出的理论和技术问题给出了科学、经济、合理的解决方法。用课题成果给出的理论和技术体系对现有的大流量预应力渡槽工程进行优化设计和施工,预计可节约投资10%~20%,渡槽单跨经济跨越能力可达30~50m,减震效果可达30%以上,基本上解决渡槽槽身裂缝问题,保证渡槽工程安全运行。
With the application of latest engineering science as well as effective theory,technology,material and method in other fields of civil engineering to the study on design and construction technology for large-scale aqueducts,while combining the typical project to develop the theory analysis,model experiment and site experiment study,some scientific,economic and reasonable methods in design and construction have been given in the paper.Applying those systems to optimal design and construction of large flow prestressed concrete aqueducts,we can save 10%-20% of the investment,the economic span of single span of aqueduct reaching 30-50m,and the effect of vibration absorption above to 30%.So the cracking problem of the flume can been solved basically,and aqueduct engineering will operate safely.
With the application of latest engineering science as well as effective theory,technology,material and method in other fields of civil engineering to the study on design and construction technology for large-scale aqueducts,while combining the typical project to develop the theory analysis,model experiment and site experiment study,some scientific,economic and reasonable methods in design and construction have been given in the paper.Applying those systems to optimal design and construction of large flow prestressed concrete aqueducts,we can save 10%-20% of the investment,the economic span of single span of aqueduct reaching 30-50m,and the effect of vibration absorption above to 30%.So the cracking problem of the flume can been solved basically,and aqueduct engineering will operate safely.
引文
[1]王长德,夏富洲,等.大型渡槽结构优化设计及动力分析[R].武汉:武汉大学,2007.
[2]冯晓波,夏富洲,王长德,等.南水北调中线大型渡槽运行期温度场的计算[J].武汉大学学报,2007,(2):25-28.
[3]季日臣,夏修身,陈尧隆,等.骤然降温作用下混凝土箱形渡槽横向温度应力分析[J].水利水电技术,2007,(1):50-52.
[4]竺慧珠,陈德亮,管枫年.渡槽[M].北京:中国水利水电出版社,2004.
[5]蒋建平,汪明武,高广运.桩端岩土差异对超长桩影响的对比研究[J].岩石力学与工程学报,2004,23(18):3190-3195.
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[7]宋宏伟,郭玉顺.高性能轻骨料混凝土的力学和抗冻性能研究[J].混凝土与水泥制品,2005,(5):17-20.
[8]徐宁.C100高强高性能混凝土的制备及性能试验研究[D].南京:河海大学,2007.
[9]张耀庭,刘再华.小型叠层橡胶支座水平刚度的实验研究[J].振动与冲击,1998,17(4):66-70.
[10]刘云贺,胡宝柱,闫建文,等.Housner模型在渡槽抗震计算中的适用性[J].水利学报,2002,(9):94-99.
[11]吴轶.大型梁式渡槽地震反应分析及设计方法研究[D].广州:华南理工大学,2004.
[12]李书群,和秀芬.南水北调中线洺河渡槽运行期温度影响及对策[J].南水北调与水利科技,2006,4(6):22-24.
[13]耿运生,施炳利,和秀芬.南水北调渡槽侧壁温度场计算及保温材料应用分析[J].南水北调与水利科技,2005,3(12):22-23.
[14]林宝玉,蔡跃波,单国良.保证和提高我国港工混凝土耐久性措施的研究与实践[C].2004:26-33.
[15]贾超,刘宁,等.南水北调中线工程渡槽结构风险分析[J].水力发电,2003,29(7):23-27.
[16]李典庆.基于贝叶斯理论的灌注桩多个缺陷的统计特性分析[J].岩土力学,2008,29(9):2492-2497.
[2]冯晓波,夏富洲,王长德,等.南水北调中线大型渡槽运行期温度场的计算[J].武汉大学学报,2007,(2):25-28.
[3]季日臣,夏修身,陈尧隆,等.骤然降温作用下混凝土箱形渡槽横向温度应力分析[J].水利水电技术,2007,(1):50-52.
[4]竺慧珠,陈德亮,管枫年.渡槽[M].北京:中国水利水电出版社,2004.
[5]蒋建平,汪明武,高广运.桩端岩土差异对超长桩影响的对比研究[J].岩石力学与工程学报,2004,23(18):3190-3195.
[6]陈斌,卓家寿,周力军.嵌岩桩垂直承载力的有限元分析(下)[J].水运工程,2001,333(10):25-27.
[7]宋宏伟,郭玉顺.高性能轻骨料混凝土的力学和抗冻性能研究[J].混凝土与水泥制品,2005,(5):17-20.
[8]徐宁.C100高强高性能混凝土的制备及性能试验研究[D].南京:河海大学,2007.
[9]张耀庭,刘再华.小型叠层橡胶支座水平刚度的实验研究[J].振动与冲击,1998,17(4):66-70.
[10]刘云贺,胡宝柱,闫建文,等.Housner模型在渡槽抗震计算中的适用性[J].水利学报,2002,(9):94-99.
[11]吴轶.大型梁式渡槽地震反应分析及设计方法研究[D].广州:华南理工大学,2004.
[12]李书群,和秀芬.南水北调中线洺河渡槽运行期温度影响及对策[J].南水北调与水利科技,2006,4(6):22-24.
[13]耿运生,施炳利,和秀芬.南水北调渡槽侧壁温度场计算及保温材料应用分析[J].南水北调与水利科技,2005,3(12):22-23.
[14]林宝玉,蔡跃波,单国良.保证和提高我国港工混凝土耐久性措施的研究与实践[C].2004:26-33.
[15]贾超,刘宁,等.南水北调中线工程渡槽结构风险分析[J].水力发电,2003,29(7):23-27.
[16]李典庆.基于贝叶斯理论的灌注桩多个缺陷的统计特性分析[J].岩土力学,2008,29(9):2492-2497.
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