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Application of high-pressure water jet technology and the theory of rock burst control in roadway 被引量:19
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作者 Yang Zengqiang Dou Linming +3 位作者 Liu Chang Xu Mengtang Lei Zhen Yao Yahu 《International Journal of Mining Science and Technology》 SCIE EI CSCD 2016年第5期929-935,共7页
This paper puts forward using high-pressure water jet technology to control rock burst in roadway, and analyzes the theory of controlling rock burst in roadway by the weak structure zone model. The weak structure zone... This paper puts forward using high-pressure water jet technology to control rock burst in roadway, and analyzes the theory of controlling rock burst in roadway by the weak structure zone model. The weak structure zone is formed by using high-pressure water jet to cut the coal wall in a continuous and rotational way. In order to study the influence law of weak structure zone in surrounding rock, this paper numerically analyzed the influence law of weak structure zone, and the disturbance law of coal wall and floor under dynamic and static combined load. The results show that when the distance between high-pressure water jet drillings is 3 m and the diameter of drilling is 300 mm, continuous stress superposition zone can be formed. The weak structure zone can transfer and reduce the concentrated static load in surrounding rock, and then form distressed zone. The longer the high-pressure water jet drilling is, the larger the distressed zone is. The stress change and displacement change of non-distressed zone in coal wall and floor are significantly greater than that of distressed zone under dynamic and static combined load. And it shows that the distressed zone can effectively control rock burst in roadway under dynamic and static combined load. High-pressure water jet technology was applied in the haulage gate of 250203 working face in Yanbei Coal Mine, and had gained good effect. The study conclusions provide theoretical foundation and a new guidance for controlling rock burst in roadway. 展开更多
关键词 high-pressure water jet technology Rock burst Weak structure zone Dynamic and static combined load
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High Pressure Water-Jet Technology for the Surface Treatment of Al-Si Alloys and Repercussion on Tribological Properties
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作者 Md. Aminul Islam Zoheir Farhat Jonathon Bonnell 《Journal of Surface Engineered Materials and Advanced Technology》 2011年第3期112-120,共9页
Recent developments in high pressure water-jet technology have brought the process to the forefront as a means of surface treatment. Water jet technology offers cleaning, cutting, processing as well as potential refin... Recent developments in high pressure water-jet technology have brought the process to the forefront as a means of surface treatment. Water jet technology offers cleaning, cutting, processing as well as potential refinement of surface properties. By adapting the process parameters the surface characteristics can be changed while the profile remains the same. In the present study, water-jet technology was used for the surface treatment of Al-Si alloy to investigate its effect on tribological properties. Dry sliding wear behavior was investigated against AISI 52100 bearing steel ball using a reciprocating ball-on-flat configuration. Optical microscopy examination reveals that ploughing of grains, transgranular and intergranular propagation of cracks;are the mechanisms by which material is removed during water jet treatment. While, on the other hand, SEM observation of the wear track reveals that plastic deformation and delamination are the dominant wear mechanism during the wear process. Water jet treatment was compared to hot isostatic pressing in terms of its effects on wear resistance and surface porosity of Al-Si alloy. It was found that, hot isostatic pressing reduces the total amount of porosity at the expanse of hardness while water jet treatment produces a compressed surface having higher hardness and compressive residual stress, which ultimately increases wear resistance. 展开更多
关键词 TRIBOLOGY high pressure water jet TREATMENT POROSITY Surface TREATMENT XRD Reciprocating WEAR
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Rock Breaking Performance of a Pick Assisted by High-pressure Water Jet under Different Configuration Modes 被引量:5
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作者 LIU Songyong LIU Xiaohui +1 位作者 CHEN Junfeng LIN Mingxing 《Chinese Journal of Mechanical Engineering》 SCIE EI CAS CSCD 2015年第3期607-617,共11页
In the process of rock breaking, the conical pick bears great cutting force and wear, as a result, high-pressure water jet technology is used to assist with cutting. However, the effect of the water jet position has n... In the process of rock breaking, the conical pick bears great cutting force and wear, as a result, high-pressure water jet technology is used to assist with cutting. However, the effect of the water jet position has not been studied for rock breaking using a pick. Therefore, the models of rock breaking with different configuration modes of the water jet are established based on SPH combined with FEM. The effect of the water jet pressure, distance between the jet and the pick bit, and cutting depth on the rock breaking performance as well as a comparison of the tension and compression stress are studied via simulation; the simulation results are verified by experiments. The numerical and experimental results indicate that the decrease in the rates of the pick force obviously increases from 25 MPa to 40 MPa, but slowly after 40 MPa, and the optimal distance between the jet and the pick bit is 2 mm under the JFP and JSP modes. The JCP mode is proved the best, followed by the modes of JRP and JFP, and the worst mode is JSP. The decrease in the rates of the pick force of the JCP, JRP, JFP, and JSP modes are up to 30.96%, 28.96%, 33.46%, 28.17%, and 25.42%, respectively, in experiment. Moreover, the JSP mode can be regarded as a special JFP model when the distance between the pick-tip and the jet impact point is 0 mm. This paper has a dominant capability in introducing new numerical and experimental method for the study of rock breaking assisted by water jet and electing the best water jet position from four different configuration modes. 展开更多
关键词 conical pick high pressure water jet rock breaking SPH
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Key technologies for construction of Jinping traffic tunnel with an extremely deep overburden and a high water pressure 被引量:6
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作者 Shougen CHEN Heng ZHANG Xinrong TAN Liang CHEN 《Journal of Modern Transportation》 2011年第2期94-103,共10页
Jinping traffic tunnel is one of the deepest traffic tunnels in the world with a maximum overburden of 2 375 m and the overburden over 73% of its total length is larger than 1 500 m. The tunnel is 17.5 km long and des... Jinping traffic tunnel is one of the deepest traffic tunnels in the world with a maximum overburden of 2 375 m and the overburden over 73% of its total length is larger than 1 500 m. The tunnel is 17.5 km long and designed to provide a shortcut road between two hydropower stations: Jinping I and Jinping II of the Jinping Hydropower Project, located on Yalong River, Liangshan State, Sichuan Province, China. The tunnel is so deep that building any shafts is impossible. The construction starts from both ends (east and west ends), and the construction length from the west end is 10 km with a blind heading. This paper deals with an overview of this project and analysis of the engineering features, as well as key technologies developed and applied during the construction, including geological prediction, rock burst prevention under a super high in-situ stress, sealing of groundwater with a high pressure and big flow rate, ventilation for a blind heading of 10 km, wet spraying of shotcrete at zones of rock burst and rich water, etc. The application of the new technologies to the construction achieved a high quality tunnel within the contract period. 展开更多
关键词 key technologies Jinping traffic tunnel extremely deep overburden high water pressure
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Numerical analysis on coal-breaking process under high pressure water jet 被引量:7
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作者 CHEN Jin-hua LIANG Yun-pei CHENG Guo-qiang 《Journal of Coal Science & Engineering(China)》 2009年第3期289-294,共6页
Based on the theory of nonlinear dynamic finite element,the control equation ofcoal and water jet was acquired in the coal breaking process under a water jet.The calculationmodel of coal breaking under a water jet was... Based on the theory of nonlinear dynamic finite element,the control equation ofcoal and water jet was acquired in the coal breaking process under a water jet.The calculationmodel of coal breaking under a water jet was established;the fluid-structure couplingof water jet and coal was implemented by penalty function and convection calculation.The dynamic process of coal breaking under a water jet was simulated and analyzed bycombining the united fracture criteria of the maximum tensile strain and the maximal shearstrain in the two cases of damage to coal and damage failure to coal. 展开更多
关键词 numerical analysis coal breaking high pressure water jet fluid-structure coupling DAMAGE DRILL
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基于5DOF的隧道摄像头清洗装置控制系统设计
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作者 边艳妮 杨雨升 +3 位作者 王超 张军 叶敏 刘晓娜 《中国工程机械学报》 北大核心 2024年第2期214-219,共6页
针对隧道内摄像头镜面污染严重,影响隧道监控管理的问题,基于高压水射流技术,提出了一种5自由度的机械臂清洗装置。分析系统的功能需求,采用电驱动的方式对机械臂的控制系统进行设计,基于比例积分微分控制(PID)原理设计了各关节的定位功... 针对隧道内摄像头镜面污染严重,影响隧道监控管理的问题,基于高压水射流技术,提出了一种5自由度的机械臂清洗装置。分析系统的功能需求,采用电驱动的方式对机械臂的控制系统进行设计,基于比例积分微分控制(PID)原理设计了各关节的定位功能,并用物联网监控的方式开发了远程APP测控系统。通过室内实验确定了最优的清洗工艺参数,并进行了现场的清洗实验。实验结果表明:其能够实现隧道摄像头镜面的有效清洗,清洗装置各关节的定位相对误差在1.4%以内,为隧道内摄像头或者标识物的清洗提供了安全高效的机械化方式。 展开更多
关键词 隧道清洗 控制系统 机械臂 高压水射流 物联网
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Prevention and treatment technologies of railway tunnel water inrush and mud gushing in China 被引量:19
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作者 Yong Zhao Pengfei Li Siming Tian 《Journal of Rock Mechanics and Geotechnical Engineering》 SCIE CSCD 2013年第6期468-477,共10页
Water inrush and mud gushing are one of the biggest hazards in tunnel construction. Unfavorable geological sections can be observed in almost all railway tunnels under construction or to be constructed, and vary in ex... Water inrush and mud gushing are one of the biggest hazards in tunnel construction. Unfavorable geological sections can be observed in almost all railway tunnels under construction or to be constructed, and vary in extent. Furthermore, due to the different heights of mountains and the lengths of tunnels, the locations of the unfavorable geological sections cannot be fully determined before construction, which increases the risk of water inrush and mud gushing. Based on numerous cases of water inrush and mud gushing in railway tunnels, the paper tries to classify water inrush and mud gushing in railway tunnels in view of the conditions of the surrounding rocks and meteorological factors associated with tunnel excavation. In addition, the causes of water inrush and mud gushing in combination of macroand micromechanisms are summarized, and site-specifc treatment method is put forward. The treatment methods include choosing a method of advance geological forecast according to risk degrees of different sections in the tunnel, determining the items of predictions, and choosing the appropriate methods, i.e. draining-oriented method, blocking-oriented method or draining-and-blocking method. The treatment technologies of railway water inrush and mud gushing are also summarized, including energy relief and pressure relief technology, advance grouting technology, and advance jet grouting technology associated with their key technical features and applicable conditions. The results in terms of treatment methods can provide reference to the prevention and treatment of tunnel water inrush and mud gushing. 展开更多
关键词 Tunnel engineering Unfavorable geological regions water inrush and mud gushing pressure relief technology Advance grouting technology Advance jet grouting
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Investigation on Water Jet Treated Polyester/cotton Blended Cambric
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作者 黄故 《Journal of Donghua University(English Edition)》 EI CAS 2004年第1期104-108,共5页
Analytical examination was made to ascertain the effect of the high pressure water flow on the fabric properties.Polyester/cotton blended cambric was spurted by high pressure water flow. Fabric properties such as hand... Analytical examination was made to ascertain the effect of the high pressure water flow on the fabric properties.Polyester/cotton blended cambric was spurted by high pressure water flow. Fabric properties such as handle,thickness, tensile strength , stiffness and air permeability after the water treatment were investigated. 展开更多
关键词 Cambric high pressure water jet Fabric treatment
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地面井分层卸压的煤系气合采原理及方式探讨
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作者 李瑞 金丽红 +1 位作者 夏彬伟 葛兆龙 《煤田地质与勘探》 EI CAS CSCD 北大核心 2024年第2期171-179,共9页
为了进一步认识制约煤系气合采的因素,提高煤系合层排采各产层的产气贡献,分别从动力、通道和气源条件出发,分析了煤系气合采的必备因素。基于改变地应力状态提高储层导流能力以及分层改变储层流体压力,满足多层合采动力条件的原理,提... 为了进一步认识制约煤系气合采的因素,提高煤系合层排采各产层的产气贡献,分别从动力、通道和气源条件出发,分析了煤系气合采的必备因素。基于改变地应力状态提高储层导流能力以及分层改变储层流体压力,满足多层合采动力条件的原理,提出了地面井分层卸压的煤系气合采方式。该方式通过在地面进行定向钻井,在目标储层中进行高压水射流作业,人工创造卸压空间(缝、槽、穴等),改变地应力状态,降低有效应力伤害,增加储层导流通道的数量和开度,提高目标储层压降传递速率。待储层压力降至符合煤系气合采动力条件时进行合层排采,从而提高煤系合采各产气层的产气贡献。相较于常规增产改造措施,此方式能够减少煤系气储层在有效应力作用下的储层伤害,且有助于提高储层压降传递效率,增强煤系气的解吸和扩散,降低多层煤系气合采过程中的层间干扰。在以上研究基础上,认为地面井分层卸压的合采方式主要适用于储层地应力大、产层间距小的煤系气储层,且有望在薄互层煤系气储层增产改造及层间干扰严重的叠合共生煤系储层开发领域进行应用推广。 展开更多
关键词 煤系气 分层卸压 多层合采 高压水射流 地应力 有效应力
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高压水射流辅助锥形PDC齿破碎花岗岩试验研究
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作者 王大勇 马红滨 +4 位作者 李欣龙 熊超 史怀忠 黄中伟 赫文豪 《石油机械》 北大核心 2024年第7期36-44,共9页
深部地层岩石硬度高、研磨性强、可钻性差,地质条件复杂、施工难度大,高压水射流辅助钻井可有效延长钻头寿命,提高钻进效率。采用室内试验与理论分析相结合的方法,开展了高压水射流辅助锥形PDC齿破碎花岗岩试验,分析了高压水射流辅助锥... 深部地层岩石硬度高、研磨性强、可钻性差,地质条件复杂、施工难度大,高压水射流辅助钻井可有效延长钻头寿命,提高钻进效率。采用室内试验与理论分析相结合的方法,开展了高压水射流辅助锥形PDC齿破碎花岗岩试验,分析了高压水射流辅助锥形PDC齿和常规PDC齿破碎花岗岩特性,揭示了射流压力、喷射距离、喷嘴直径及喷射角度等因素对锥形PDC齿破岩效果的影响规律。研究结果表明:在高压水射流辅助破岩条件下,锥形PDC齿与常规PDC齿的破岩比能分别降低了17.36%与19.63%;射流压力越大,射流辅助锥形PDC齿破岩效果越好;在研究条件下,喷距范围为5~10 mm可使水射流辅助锥形PDC齿破岩效果最佳;当喷嘴直径为2 mm时,切削力离散系数最小;喷射角度为30°时,锥形PDC齿切削力与破岩比能达到最小值;喷射角度为20°时,切削力离散系数最小,切削力最稳定。研究结果可为适用于深部硬岩钻井的锥形PDC钻头水力结构设计与优化提供理论支撑。 展开更多
关键词 高压水射流 锥形PDC齿 联合破岩 花岗岩 切削力 破岩特性
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高燃压中型运载火箭发射地面低高度排导技术
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作者 陈劲松 张国栋 +2 位作者 王帅 葛立新 宋征宇 《宇航学报》 EI CAS CSCD 北大核心 2024年第1期12-20,共9页
综合高燃压中型运载火箭高密度发射燃气流地面排导需求及烧蚀风险分析,提出基于地面双面导流装置与高位挡流墙结合的地面低高度排导技术方案。利用火箭发射燃气动力学研究总结的燃气流膨胀特性以及导流型面设计方法,解决了地面低高度排... 综合高燃压中型运载火箭高密度发射燃气流地面排导需求及烧蚀风险分析,提出基于地面双面导流装置与高位挡流墙结合的地面低高度排导技术方案。利用火箭发射燃气动力学研究总结的燃气流膨胀特性以及导流型面设计方法,解决了地面低高度排导技术涉及的地面导流装置导流型面气动设计以及尺度控制两个关键问题。地面低高度排导技术方案设计与燃气流场瞬态仿真多轮叠代,实现了燃气流排导烧蚀范围合理控制,避免了燃气流低高度排导烧蚀反溅影响箭体。地面低高度排导技术采用专利支撑的喷水冷却防护方案实现高燃压中型运载火箭发射燃气流强烧蚀环境发射系统、发射设施综合防护。基于喷流缩比试验相似性控制方法研制了1∶10比例喷流缩比试验系统,通过喷流缩比试验验证确认高燃压中型运载火箭发射燃气流能够实现地面低高度安全、顺畅排导,同时与发射台、导流装置结构融合的阵列喷水方案能够行之有效解决高燃压中型运载火箭地面低高度排导强烧蚀难题。 展开更多
关键词 高燃压运载火箭 地面排导 低高度排导 燃气流场 喷水防护 喷流缩比试验
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带钢表面高压水射流清洗机理及试验研究
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作者 胡志威 《液压与气动》 北大核心 2024年第8期182-188,共7页
高压水射流技术是冷轧带钢表面清洗的有效技术手段,为了探究高压水射流清洗带钢表面污垢的工作机理,基于计算流体力学理论建立了高压水射流打击力模型,分析了打击力与喷嘴压力和流量的关系。通过正交理论,开展了带钢清洗效果的试验验证... 高压水射流技术是冷轧带钢表面清洗的有效技术手段,为了探究高压水射流清洗带钢表面污垢的工作机理,基于计算流体力学理论建立了高压水射流打击力模型,分析了打击力与喷嘴压力和流量的关系。通过正交理论,开展了带钢清洗效果的试验验证,并对不同工况参数下带钢清洗后的表面形貌进行了分析。结果显示,工作压力对于提高带钢清洗后的表面质量影响最为显著。此外,适当增大清洗角度和喷射距离也有助于提高清洗后带钢的表面质量,为优化清洗工艺提供了重要的参考依据。 展开更多
关键词 高压水射流 打击力 喷嘴 带钢 表面形貌
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基于正交试验法的铝合金车体高压水清洗喷嘴结构优化 被引量:1
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作者 孙浩 栾锋 +3 位作者 冯乐乐 赵鹏 陈萧阳 张军 《液压与气动》 北大核心 2024年第1期122-130,共9页
抑尘剂等复杂的化合物黏着在铝合金车体上,导致车体污染十分严重,高压水射流清洗方法能够有效去除铝合金车辆车体表面黏着的化合物。通过分析圆柱形、锥形、文丘里形和余弦形喷嘴的射流流场分布、射流出口速度、最大壁面静压、相同清洗... 抑尘剂等复杂的化合物黏着在铝合金车体上,导致车体污染十分严重,高压水射流清洗方法能够有效去除铝合金车辆车体表面黏着的化合物。通过分析圆柱形、锥形、文丘里形和余弦形喷嘴的射流流场分布、射流出口速度、最大壁面静压、相同清洗宽度下压力值范围,得到余弦形喷嘴的清洗性能最佳,锥形喷嘴次之。基于正交试验法设计五因素、四水平正交试验表,得到常用清洗压力下余弦形喷嘴的最优结构参数:进口直径为40 mm、出口直径为20 mm、过渡段半径为40 mm、出射段长度为25 mm、过渡与余弦部分长度比为4。按照最优喷嘴结构参数进行建模,得到三组压力值下高压水出射速度比未优化前提高了2%,且优化效果随着入口压力值的提高而有所下降。在优化后的喷嘴结构参数下进一步计算得出入口压力为10 MPa时,靶距设置为250 mm能达到较好的清洗效果和节能作用。 展开更多
关键词 铝合金车体 高压水射流 正交试验 喷嘴 结构优化
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THE PERFORMANCES OF HIGH PRESSURE JET OF PURE WATER AND POLYMER SOLUTION WITH CONICAL NOZZLE
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作者 LIAO QIDIAN ZHONG SHENGYU +1 位作者 ZHAO XUEDUAN ZHU YONG, Shanghai Institute of Mechanical Engineeing, Shanghai, P.R.China 《Journal of Hydrodynamics》 SCIE EI CSCD 1989年第1期61-71,共11页
In this paper, the effects of polymer additives and nozzle shape on the proper- ties of high pressure water jet discharging into the air are investigated by theory and experiments. Criteria of judging the jet quality ... In this paper, the effects of polymer additives and nozzle shape on the proper- ties of high pressure water jet discharging into the air are investigated by theory and experiments. Criteria of judging the jet quality are put forward. And, a method that can be used in analysing the fluid flow within the nozzle is developed. Then, the calculated results are compared with the experiments that we carried out; it is shown that the degree of agreement between the two is good. At last, the mechanism to improve on the jet quality with polymer additives is discussed. 展开更多
关键词 LENGTH THE PERFORMANCES of high pressure jet of PURE water AND POLYMER SOLUTION WITH CONICAL NOZZLE FLOW very jet
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密闭空间内高压过冷水射流冲击高温铅铋熔池能质传输数值模拟研究
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作者 袁俊杰 刘莉 +5 位作者 包睿祺 罗皓天 贾政 田晓艳 李达 顾汉洋 《原子能科学技术》 EI CAS CSCD 北大核心 2024年第9期1958-1969,共12页
蒸汽发生器传热管破裂(SGTR)事故是铅铋冷却快堆(LFR)最为严重的设计基准事故之一,将导致二回路高压过冷水通过管道破口高速射流注入一回路高温液态铅铋(LBE),强烈的相间热质传输可能引发蒸汽爆炸,严重威胁堆芯结构的完整性。为了揭示S... 蒸汽发生器传热管破裂(SGTR)事故是铅铋冷却快堆(LFR)最为严重的设计基准事故之一,将导致二回路高压过冷水通过管道破口高速射流注入一回路高温液态铅铋(LBE),强烈的相间热质传输可能引发蒸汽爆炸,严重威胁堆芯结构的完整性。为了揭示SGTR事故现象机理,本文基于VOF多相流模型、LES湍流模型和Lee相变模型,考虑容器内覆盖气体层作用,建立了密闭空间内高压过冷水射流冲击高温LBE多相流动与瞬态传热传质过程的三维数值计算模型,重点分析了过冷水温度及入口压力对射流发展和射流周围环境(即覆盖气体层和LBE区域)的影响。结果表明,典型的射流按相态可分为4个区域,即水-蒸汽过渡区、多相流区、末端水相区和蒸汽斑块区。射流沸腾主要发生在射流中心区域和两侧的相界面上,相变产生的蒸汽夹带残余水相沿着界面从射流的末端向顶部迁移,计算工况下最大沸腾速率通常在喷管出口处,为7090 kg/(m^(3)·s)。覆盖气体层和LBE区压力与过冷水温度和入口压力均呈正相关,LBE区压力会随着射流发展逐渐增加,同时蒸汽的迁移可能引起LBE区压力发生波动,在4.4 ms时间内在覆盖气体层和LBE区获得的最大压力分别为0.157 MPa和0.351 MPa。本文结果揭示了射流沸腾机理与压力演化特性,为铅铋冷却快堆SGTR事故系统安全评估提供了理论支撑。 展开更多
关键词 密闭空间 高压过冷水射流 高温LBE 能质传输 数值模拟
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基于高水压射流的盾构泥饼切割试验研究
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作者 刘朋飞 温博为 +4 位作者 杨钊 陈培帅 姬付全 宋相帅 宋同兴 《隧道建设(中英文)》 CSCD 北大核心 2024年第S01期230-236,共7页
为解决高水压射流清理泥饼布置方式无依据等问题,研制泥饼压制设备和高水压射流装置,并以强风化泥质粉砂岩作为试验材料,开展高水压射流切割泥饼试验,研究射流压力、流量、传输介质等参数对泥饼切割宽度和深度的影响。主要结论有:1)随... 为解决高水压射流清理泥饼布置方式无依据等问题,研制泥饼压制设备和高水压射流装置,并以强风化泥质粉砂岩作为试验材料,开展高水压射流切割泥饼试验,研究射流压力、流量、传输介质等参数对泥饼切割宽度和深度的影响。主要结论有:1)随着冲刷距离的增大,泥饼切割宽度先增大然后逐渐减小至0,而切割深度则逐渐减小;2)射流压力相同的情况下,当流量从49.1 L/min增大至110.0 L/min时,高水压射流对泥饼的切割宽度增大,当流量从110.0 L/min增加至202.8 L/min时,切割宽度反而减小,切割深度则随着流量的增加而增大;3)射流流量相同的情况下,水压力越大,则切割宽度和深度也越大;4)在水中进行泥饼切割时,高水压射流对泥饼的作用以冲刷为主,难以产生有效的切割。 展开更多
关键词 黏性地层 盾构施工 泥饼处治 高水压射流 泥饼切割
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基于机器学习的K424合金刻蚀深度预测
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作者 张青 乔红超 +1 位作者 王顺山 赵吉宾 《激光与红外》 CAS CSCD 北大核心 2024年第5期701-709,共9页
为探究水导激光加工过程中不同工艺参数对K424高温合金刻蚀深度的作用,对K424高温合金进行了包括激光功率、进给速度及加工次数在内的三个关键工艺参数的影响刻蚀实验,实验结果表明:较大的功率、较小的进给速度和多次加工会产生更深的... 为探究水导激光加工过程中不同工艺参数对K424高温合金刻蚀深度的作用,对K424高温合金进行了包括激光功率、进给速度及加工次数在内的三个关键工艺参数的影响刻蚀实验,实验结果表明:较大的功率、较小的进给速度和多次加工会产生更深的刻蚀。此外采用XGBoost、RF、BPNN以及SVR四种模型建立了激光功率、进给速度和加工次数与加工深度之间的预测模型。在拟合效果上XGBoost与SVR模型表现优异,最大误差百分比均不到0.3%;在预测结果方面显示,XGBoost最大误差百分比6.698%,优于另三种模型。最后得出XGBoost模型在拟合和预测K424高温合金加工深度方面有更好的性能。与传统的干式激光加工相比,水导激光加工技术减少了材料热损伤,提高了加工质量。该研究为水导激光加工K424高温合金提供了参考。 展开更多
关键词 水导激光加工技术 K424高温合金 XGBoost 刻蚀深度预测
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坚硬顶板高压磨料射流侧向切顶煤柱卸荷技术研究 被引量:1
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作者 季飞 《矿业安全与环保》 CAS 北大核心 2024年第1期120-126,共7页
针对坚硬顶板下临空巷道存在的高应力、大变形、难支护等问题,分析了磨料射流能量分布情况,研究了磨料颗粒及高压水射流的冲击破岩作用。基于“砌体梁”原理,建立不同岩性条件下的岩层周期破断力学模型,研究了巷道侧向切顶条件下上覆岩... 针对坚硬顶板下临空巷道存在的高应力、大变形、难支护等问题,分析了磨料射流能量分布情况,研究了磨料颗粒及高压水射流的冲击破岩作用。基于“砌体梁”原理,建立不同岩性条件下的岩层周期破断力学模型,研究了巷道侧向切顶条件下上覆岩层断裂情况,采用数值模拟分析切顶前后煤柱应力变化情况,提出了磨料射流侧向切顶煤柱卸荷技术。现场试验结果表明,采用磨料射流切顶后巷道高度变形量减小38.7%,宽度变形量减小45.8%,巷道变形得到有效控制。同时,切顶后每日最大总能量降低85.5%,平均每日总能量降低82.6%。验证了磨料射流侧向切顶对坚硬顶板的弱化效果,为坚硬顶板弱化治理提供了一种新的技术手段。 展开更多
关键词 坚硬顶板 切顶 临空巷道 煤柱应力 磨料射流 高压水射流
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第三系半成岩富水砂岩隧道水平高压旋喷桩复合结构超前预加固研究
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作者 王秋懿 张海涛 +3 位作者 张金江 徐华 王清华 许劲松 《岩土力学》 EI CAS CSCD 北大核心 2024年第8期2462-2473,共12页
在诸如第三系半成岩地层等富水软弱均质地层的隧道建设中,常采用水平高压旋喷桩进行洞内超前预加固,但水平旋喷桩往往因自身抗拉强度低在承受较大荷载时容易发生断裂破坏。依托云南临沧至清水河高速公路王家寨隧道工程,提出了一种在桩... 在诸如第三系半成岩地层等富水软弱均质地层的隧道建设中,常采用水平高压旋喷桩进行洞内超前预加固,但水平旋喷桩往往因自身抗拉强度低在承受较大荷载时容易发生断裂破坏。依托云南临沧至清水河高速公路王家寨隧道工程,提出了一种在桩体内插入小直径钢管的水平高压旋喷复合结构。通过力学理论分析、数值模拟与现场监测,对比分析了水平高压旋喷桩素桩与复合结构的力学机制与对围岩加固作用,并对钢管布置形式及直径进行优化设计。研究表明:在300 kPa水压下,复合结构相比素桩的挠度值降低了34.8%,最大拉应力降低了37.5%,受力模式明显改善,承受的极限水压力荷载大幅提升至700 kPa,对围岩拱顶沉降、应力也有一定削减作用;增加拱顶钢管布置密度可有效降低桩体拉应力,而减少钢管直径则会导致钢管拉应力增大;建议实际工程中拱顶间隔1根桩体布置108 mm钢管,拱肩间隔2~3根布置89 mm钢管,边墙可不设钢管。 展开更多
关键词 第三系半成岩 水平高压旋喷桩 钢管复合结构 受力机制 极限水压荷载
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不同岩性高压水射流切缝机理研究
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作者 宋常杰 许弘毅 +2 位作者 龚秋明 杨风威 曹智国 《施工技术(中英文)》 CAS 2024年第18期134-140,共7页
硬岩掘进机在高强度岩体中存在掘进速度低、滚刀磨损快等问题,高压水射流可在掌子面切缝以降低岩体完整性,从而提升滚刀破岩性能,探究高压水射流切割岩石机理是研究高压水射流辅助TBM掘进的重要一环。运用高压水射流数控平台分别对砂岩... 硬岩掘进机在高强度岩体中存在掘进速度低、滚刀磨损快等问题,高压水射流可在掌子面切缝以降低岩体完整性,从而提升滚刀破岩性能,探究高压水射流切割岩石机理是研究高压水射流辅助TBM掘进的重要一环。运用高压水射流数控平台分别对砂岩、大理岩和花岗岩进行了高压水射流切割试验,射流压力从150MPa增至300MPa。通过观察岩石表观损伤、测量切缝深度与宽度获得岩石宏观破坏特征,发现在高压水射流作用下砂岩表面主要以笔直切缝为主,大理岩表面产生连续破碎带,花岗岩表面则产生较大破碎坑,但破碎坑数量明显较少。通过破岩碎屑的筛分试验及射流切槽周边荧光裂纹显现分析岩石损伤特征,发现砂岩切缝形成主要以射流的侵蚀作用为主,颗粒间的胶结物被冲刷剥落,高压水射流的冲击作用不明显,切缝横截面处未发现微裂纹。2种强度更高的结晶岩同时受到高压水射流的侵蚀作用与冲击作用影响,大理岩主要发生穿晶破坏形成“长颈漏斗”形切槽,花岗岩则在水楔作用影响下发生更多沿晶破坏,最终形成较大破碎坑。 展开更多
关键词 破岩 试验 高压水射流 切缝 破岩机理
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