Impulse waves that are generated by landslides in narrow reservoir areas threaten the stability of buildings and bank slopes.To discuss the action process and evolution law of the wave pressure on bank slopes,a three-...Impulse waves that are generated by landslides in narrow reservoir areas threaten the stability of buildings and bank slopes.To discuss the action process and evolution law of the wave pressure on bank slopes,a three-dimensional physical model test that considers impulse waves generated by landslides was performed,and factors including landslide width,thickness,slope angles of the sliding surface,and bank slope angle were considered.Based on wave forms on the bank slopes,wave pressure curve characteristics,and peak value,the action process of wave pressure could be divided into the following stages:maximum pulsating pressure stage,wave impact stage(when waves break),and stationary pulsation stage.It was found that wave breaking is dependent on the value of the surf similarity parameterξ.The distribution pattern of impact pressure decays linearly on both sides of the maximum impact pressure point,and the attenuation degree decreases when it attains 40%of the maximum value.Thus,it is proposed that the prediction formula for the maximum effective impact pressure of the bank slope be related to the reciprocal of wave steepness,relative water depth,and slope rate.The prediction formula provides strong theoretical support for early safety warning and for predicting the bank slope under impulse waves generated by landslides.展开更多
高炉料面形貌是反映煤气流分布和煤气利用率的关键指标,研究高炉料面炉料堆积形状数学建模方法对实现高炉精准布料控制和“双碳”战略在钢铁行业落地具有重要意义.针对高炉多环布料情况下料面堆积形状预测难的问题,本文提出了一种基于...高炉料面形貌是反映煤气流分布和煤气利用率的关键指标,研究高炉料面炉料堆积形状数学建模方法对实现高炉精准布料控制和“双碳”战略在钢铁行业落地具有重要意义.针对高炉多环布料情况下料面堆积形状预测难的问题,本文提出了一种基于炉料运动轨迹和径向移动距离的高炉料面炉料堆积形状建模方法.首先,提出了一种与炉料初始状态和溜槽状态相关的炉料运动轨迹建模方法,获取炉料从节流阀至料面的炉料运动轨迹,并确定炉料在炉喉空区的内轨迹曲线和外轨迹曲线.然后,基于炉料运动轨迹和初始料面形状,以体积守恒原则为约束,提出了一种基于炉料径向移动距离的高炉料面炉料堆积形状数学建模方法,获取炉料在料面的堆积形状.最后,基于某钢铁厂2#高炉的尺寸建立离散单元法(Discrete element method,DEM)仿真模型,模型仿真结果验证了所提方法的准确性和有效性.展开更多
基金funded by Chongqing Municipal Education Commission Project under Grant No.KJQN202000747the National Key Research and Development Program Project NO.2018YFB1600400+2 种基金the China Postdoctoral Science Foundation funded project grant No.2019M663890XBChongqing Postdoctoral Science Foundation funded project Grant No.228512Natural Science Foundation of Chongqing No.cstc2019jcyj-msxmX0599.
文摘Impulse waves that are generated by landslides in narrow reservoir areas threaten the stability of buildings and bank slopes.To discuss the action process and evolution law of the wave pressure on bank slopes,a three-dimensional physical model test that considers impulse waves generated by landslides was performed,and factors including landslide width,thickness,slope angles of the sliding surface,and bank slope angle were considered.Based on wave forms on the bank slopes,wave pressure curve characteristics,and peak value,the action process of wave pressure could be divided into the following stages:maximum pulsating pressure stage,wave impact stage(when waves break),and stationary pulsation stage.It was found that wave breaking is dependent on the value of the surf similarity parameterξ.The distribution pattern of impact pressure decays linearly on both sides of the maximum impact pressure point,and the attenuation degree decreases when it attains 40%of the maximum value.Thus,it is proposed that the prediction formula for the maximum effective impact pressure of the bank slope be related to the reciprocal of wave steepness,relative water depth,and slope rate.The prediction formula provides strong theoretical support for early safety warning and for predicting the bank slope under impulse waves generated by landslides.
文摘高炉料面形貌是反映煤气流分布和煤气利用率的关键指标,研究高炉料面炉料堆积形状数学建模方法对实现高炉精准布料控制和“双碳”战略在钢铁行业落地具有重要意义.针对高炉多环布料情况下料面堆积形状预测难的问题,本文提出了一种基于炉料运动轨迹和径向移动距离的高炉料面炉料堆积形状建模方法.首先,提出了一种与炉料初始状态和溜槽状态相关的炉料运动轨迹建模方法,获取炉料从节流阀至料面的炉料运动轨迹,并确定炉料在炉喉空区的内轨迹曲线和外轨迹曲线.然后,基于炉料运动轨迹和初始料面形状,以体积守恒原则为约束,提出了一种基于炉料径向移动距离的高炉料面炉料堆积形状数学建模方法,获取炉料在料面的堆积形状.最后,基于某钢铁厂2#高炉的尺寸建立离散单元法(Discrete element method,DEM)仿真模型,模型仿真结果验证了所提方法的准确性和有效性.