Pyroclastic Flow from Soufrière Hills Volcano, Montserrat: Solid Block Model

The solid block model is applied to describe the motion of the pyroclastic flow under the joint action of gravity and Coulomb friction. Special attention is paid to characteristics of the pyroclastic flow generated by Montserrat volcano in likely directions. The critical friction angle of the flow propagation is evaluated empirically. Characteristic parameters of the pyroclastic flow (travel time and impact velocity) are well approximated by linear regressions. Proposed estimations of the parameters of pyroclastic flow are useful for the rough and express evaluation of its characteristics.

Blocking Behavior of Organic Solid Phase in the Carbon Dioxide Multiphase and Multicomponent Displacement Process

Better dealing with carbon issues can support the management of current greenhouse gas emissions while achieving energy economic diversification and energy security. Carbon dioxide displacement has become the most acknowledged and practical method in enhanced oil recovery system. This is because of its oil sweep efficiency and ability to reduce the level of greenhouse gas emission. Nevertheless, it would lead to the organic solid phase deposition, which causes the changes of the wettability and the damages of wellbores and reservoirs. In this study, we used slim tube test and component test to research the dynamic characteristics of displacement process. In addition, the mechanism of porous media blockage was also investigated. Results show that when the displacement pressure closed to the minimum miscibility pressure, reservoir blockage in pore throat could happen. Component test characterizes that during near miscible displacement process, the components of oil sample varied obviously, the variation range of peak component carbon marks fluctuated strongly. Crude oil component differentiation could happen after carbon dioxide fully contacted with oil. Besides, the rapid extraction mechanism of aromatic hydrocarbons played a significant role in this process under such condition. The reason is that the solubility of saturated hydrocarbons to asphaltene and non-hydrocarbons is obviously weaker than aromatic hydrocarbons. Controlling the pressure is considered as an important link to prevent the occurrence of blocking in the carbon dioxide multiphase and multicomponent displacement process.

Formation damage mechanism and control strategy of the compound function of drilling fluid and fracturing fluid in shale reservoirs

For the analysis of the formation damage caused by the compound function of drilling fluid and fracturing fluid,the prediction method for dynamic invasion depth of drilling fluid is developed considering the fracture extension due to shale minerals erosion by oil-based drilling fluid.With the evaluation for the damage of natural and hydraulic fractures caused by mechanical properties weakening of shale fracture surface,fracture closure and rock powder blocking,the formation damage pattern is proposed with consideration of the compound effect of drilling fluid and fracturing fluid.The formation damage mechanism during drilling and completion process in shale reservoir is revealed,and the protection measures are raised.The drilling fluid can deeply invade into the shale formation through natural and induced fractures,erode shale minerals and weaken the mechanical properties of shale during the drilling process.In the process of hydraulic fracturing,the compound effect of drilling fluid and fracturing fluid further weakens the mechanical properties of shale,results in fracture closure and rock powder shedding,and thus induces stress-sensitive damage and solid blocking damage of natural/hydraulic fractures.The damage can yield significant conductivity decrease of fractures,and restrict the high and stable production of shale oil and gas wells.The measures of anti-collapse and anti-blocking to accelerate the drilling of reservoir section,forming chemical membrane to prevent the weakening of the mechanical properties of shale fracture surface,strengthening the plugging of shale fracture and reducing the invasion range of drilling fluid,optimizing fracturing fluid system to protect fracture conductivity are put forward for reservoir protection.

页岩储层钻井液-压裂液复合损害机理及保护对策

为了分析钻井液与压裂液复合作用导致的储层损害,考虑油基钻井液侵蚀页岩矿物诱发的裂缝延伸,建立钻井液动态侵入深度预测方法,评价页岩裂缝面力学性质弱化、裂缝闭合与岩粉堵塞导致的天然/水力裂缝损害,提出钻井液-压裂液复合作用储层损害模式,揭示页岩油气层钻完井损害机理并提出保护对策。研究表明,钻开储层过程中,钻井液通过页岩诱导裂缝和天然裂缝深度侵入储层,侵蚀页岩矿物并导致侵入带页岩力学性质普遍弱化;水力压裂过程中,钻井液-压裂液复合作用进一步弱化页岩力学性质,导致生产过程裂缝更易闭合并发生岩粉脱落,诱发天然/水力裂缝应力敏感损害和固相堵塞损害,造成钻井液-压裂液复合作用带裂缝导流能力大幅降低,制约页岩油气井高产稳产。提出了防塌防漏加速储层段钻进、化学成膜防止页岩裂缝面力学性质弱化、强化页岩裂缝封堵减少钻井液侵入范围、优化压裂液体系保护裂缝导流能力的页岩储层保护对策。

基于SolidWorks软件的液压集成块设计

介绍了应用SolidWorks三维参数化软件进行液压集成块设计的方法,通过液压系统的设计实例,说明采用三维参数化软件,对于提升设计手段、保证设计准确性、缩短设计周期及提高一次性设计成功率具有工程实际意义。

嵌段共聚物电解质的制备及其电化学性能

通过设计聚合物分子结构,采用热引发自由基聚合方法合成聚乙二醇甲醚甲基丙烯酸酯(PEGMEMA)和甲基丙烯酸缩水甘油酯(GMA)的二嵌段共聚物电解质PEGMEMAm-GMAn-Br(PGA-Br),并研究其电化学性能。结果表明:将PGA嵌段或接枝到聚合物电解质上,可提高聚合物电解质的离子电导率,室温下的离子电导率达1.05×10^(−4)S·cm^(−1)。同时,PGA-Br嵌段共聚物电解质具有较低的玻璃化转变温度(-65℃)、较高的热分解温度、较宽的电化学稳定窗口(5.1 V)和阻燃特性。PGA-Br共聚物电解质组装下的固态Li|Li对称电池具有增强的电极/电解质固-固界面,可实现金属锂均匀沉积,有效抑制锂枝晶的生长。在0.1 C倍率下,基于PGA-Br嵌段共聚物电解质组装的LiNi_(0.8)Co_(0.1)Mn_(0.1)O_(2)(NCM811)|PGA-Br|Li固态全电池可实现较高的首周放电比容量(160.1 mAh·g^(−1)),且循环100周次后容量保持率高达91.5%,库仑效率稳定在98.5%以上。

EPS-棉秆纤维灌孔轻质复合砌块砌体的基本力学性能研究

为推广利用基于地方煤基固废资源和棉杆纤维资源的三低型复合砌块墙体结构在新疆地区村镇低层建筑中的工程应用,以砂浆强度和芯柱材料强度为变量,对57件(27件受压、30件受剪)复合砌体试件进行抗压和抗剪力学性能试验,并对试件的破坏过程、破坏形态特征、抗压及抗剪强度进行了分析。结果表明:当砂浆与砌块的强度比低于1.6时,砂浆强度的提升对三低型复合砌体的抗压强度影响较大;芯材部分对复合砌体抗压和抗剪强度贡献最大,且随着芯柱材料强度的提升,贡献持续增大。基于砌体实际强度测定方法,建立并拟合得出了适用于三低型砌块砌体的抗压强度、抗剪强度的平均值计算公式。这对了解EPS-棉秆纤维灌孔复合混凝土砌块砌体基本力学性能具有一定的参考价值,为其在实际工程中的应用提供科学的理论依据。

利用煤化工业固体废弃物制备加气混凝土砌块的研究

“十四五”时期,我国开启全面建设社会主义现代化国家新征程,围绕推动高质量发展主题,全面提高资源利用效率的任务更加迫切。以气化渣、炉渣和粉煤灰三种煤化工业固体废弃物为主要原料制备加气混凝土砌块,获得强度为A5.0、干密度为B07级别的样品。

基于逆阻型IGCT器件的固态式直流断路器设计及研制

直流系统是支撑高比例新能源接入与灵活高效用能的重要技术方向。固态式直流断路器(solid state DC circuit breaker,SSCB)具有开断速度极快、无电弧、寿命长等优点,在中低压直流系统的故障保护中得到广泛应用。随着电力电子器件的发展,固态式直流断路器的拓扑结构、工作性能也在不断进步。为此基于逆阻型集成门极换流晶闸管(intergated gate commutate thyristor,IGCT),提出了一种新型的固态式直流断路器结构及设计方法,通流支路采用逆阻IGCT反并联结构实现双向通流,缓冲支路采用金属氧化物避雷器(metal oxide varistor,MOV)-电容结构来抑制过电压,吸能支路采用MOV吸收系统能量。进一步地,给出了关键元器件的参数设计方法,并验证了有效性;设计了性能良好的重力热管散热器,单个模块散热功率可达700 W;提出了主被动结合的控保策略,提高断路器的保护性能。最后,研制了固态式直流断路器样机,可用于750 V以内的低压直流系统,额定通流可达2 kA,可在百微秒内开断10 kA故障电流,成本低、体积小、高可靠,具有良好的应用前景。

基于Solid Edge的计算机虚拟机构拼盘及其应用研究

在三维CAD软件Solid Edge基础上进行二次开发,提出计算机虚拟机构拼盘的实现方法,在机械原理课程教学中由学生在计算机上进行机构的任意拼装,并在三维环境下模拟机构的运动,以提高学生对机构的深入认识并进而培养学生的创新能力。

林废-固废复合装配式建筑墙体砌块制备机理研究

自从绿色墙材的概念被提出后,探索林废-固废复合制备装配式建筑墙体材料的技术成为一项重要的研究课题。以再生骨料混凝土砌块作为主要研究对象,创新研发林废-固废复合制备装配式建筑墙体材料,优化现有墙体砌块尺寸设计,使其达到非承重墙体的要求,并提升建筑节能效果。通过研究林废固废混凝土新型砌块在墙材领域的潜在应用,不仅推动回收再利用废旧混凝土,有效促进建筑废弃物的可持续发展利用,还为相关领域提供实验数据和理论指导,推动高强复合混凝土砌块技术的发展和应用。以加强低碳技术研发为抓手,推动建筑材料行业向轻型化、终端化、产品化转型。

阳春沟区块页岩气超临界CO_(2)增能压裂研究与应用

目的目前,超临界CO_(2)压裂应用前景广阔,为更好地指导现场应用,亟需明确超临界CO_(2)压裂的起裂压力和裂缝扩展规律。方法考虑压裂过程温度变化对CO_(2)物性的影响以及岩石中的热应力作用,建立热流固耦合超临界CO_(2)压裂模型。探究了水平应力差、天然裂缝逼近角以及CO_(2)注入温度对裂缝起裂的影响。结果在阳春沟Y井开展的现场试验表明:与水力压裂相比,超临界CO_(2)压裂可以明显降低裂缝起裂压力,即使在高水平应力差下,仍可以获得复杂的裂缝形态;天然裂缝逼近角增大,起裂压力随之增大,裂缝复杂程度增加;CO_(2)注入温度与地层温差越大,热应力作用越明显,裂缝形态越复杂。结论现场应用显示注入前置超临界CO_(2)可以有效降低起裂压力,有利于提高后续水力压裂的缝内净压力,增强储层改造效果。

血浆基质在牙槽嵴保存术中的应用

拔牙后,牙槽嵴软硬组织会发生明显吸收,牙槽嵴保存术目标在于尽量维持牙槽嵴软硬组织体积与形态,为种植体的植入提供适当条件。目前牙槽嵴保存术拔牙窝的多种分类方式存在难以直接指导移植材料的选择和临床操作、颗粒状骨替代材料空间维持能力不足导致成骨效果不佳等问题。血浆基质是一种自体血液提取物,能有效提高组织再生效果。本文阐述了拔牙后软硬组织丧失的特点及血浆基质在牙槽嵴保存术中的主要应用形式(液态血浆基质、固态血浆基质膜/塞、血浆基质骨块),对需要进行牙槽嵴保存术的牙槽窝进行了新的分类,并就应用血浆基质行牙槽嵴保存术的临床操作方法进行推荐:第一类为拔牙窝不存在骨组织缺损,伴或不伴软组织缺损;第二类为拔牙窝存在骨组织缺损,双侧骨壁缺损均小于50%,伴或不伴软组织缺损;第三类为拔牙窝存在骨组织缺损,双侧骨壁至少有一侧缺损大于50%,伴或不伴软组织缺损。在第一类拔牙窝中可填入固态血浆基质膜或组织塞,再次注射液态血浆基质,双层固态血浆基质膜封闭拔牙窝;在第二类拔牙窝中可填入血浆基质骨块,注射液态血浆基质二次固化后,使用可吸收胶原膜及双层固态血浆基质膜关闭拔牙窝;在第三类拔牙窝中利用帐篷钉维持高度,再植入血浆基质骨块,注射液态血浆基质二次固化后,使用可吸收胶原膜及双层固态血浆基质膜关闭拔牙窝。本文旨在为口腔临床医师全面了解血浆基质、简化牙槽嵴保存术临床决策及操作提供参考。

Solid Works在液压阀块设计中的应用

阐述了液压阀块的设计原则,着重叙述了应用Solid W orks软件设计液压阀块的方法,结合实例运用该软件,提高了工作效率与可靠性。

In depth fusion flame spreading with a deuterium-tritium plane fuel density profile for plasma block ignition

Solid-state fuel ignition was given by Chu and Bobin according to the hydrodynamic theory at x = 0 qualitatively. A high threshold energy flux density, i.e., E＊ = 4.3 × 10^12 J/m2, has been reached. Recently, fast ignition by employing clean petawatt-picosecond laser pulses was performed. The anomalous phenomena were observed to be based on suppression of prepulses. The accelerated plasma block was used to ignite deuterium tritium fuel at solid-state density. The detailed analysis of the thermonuclear wave propagation was investigated. Also the fusion conditions at x ≠ 0 layers were clarified by exactly solving hydrodynamic equations for plasma block ignition. In this paper, the applied physical mechanisms are determined for nonlinear force laser driven plasma blocks, thermonuclear reaction, heat transfer, electro,ion equilibration, stopping power of alpha particles, bremsstrahlung, expansion, density dependence, and fluid dynamics. New ignition conditions may be obtained by using temperature equations, including the density profile that is obtained by the continuity equation and expansion velocity. The density is only a function of x and independent of time. The ignition energy flux density, Et＊, for the x ≠ 0 layers is 1.95 × 1012 J/m2. Thus threshold ignition energy in comparison with that at x =0 layers would be reduced to less than 50 percent.

基于Solidworks软件的液压集成块CAD系统的研究

介绍了应用Solidworks三维实体造型软件,进行液压集成块CAD系统研究的思想和方法,并重点介绍了研究过程中所使用的相关技术和理论。通过Solidworks的二次开发环境,利用VB编程,生成三维实体图和二维工程图,简化设计过程,提高了设计效率。

固液两相流自坐封式截断阀的设计与仿真

自坐封式截断阀应用在所有石油化工管道上,实现安全坐封,保护管道安全。基于固液两相流对自坐封式截断阀的坐封过程进行有限元仿真,对阀芯的四种工况进行理论分析与数值模拟,得出相应流场流线图、速度图,以及阀芯、阀芯底座的应力云图、变形云图。由结果可知,自坐封式截断阀的工作状态下,阀芯的接触表面存在严重的集中应力场,应力场的最大应力不超过16500 MPa(微小局部),最大变形量不超过0.055 mm;阀芯底座最大应力不超过654.47 MPa(微小局部),最大变形量不超过0.080mm,引起接触表面轻微变形,影响阀门使用寿命。研究结果对截断阀阀芯结构优化改进提供相应的理论支撑。

废弃蒸压砌块与煤矸石在煤矿采空区地基加固中的试验研究

随着社会发展,大量的废弃蒸压砌块与煤矸石对周边环境造成不良影响,为了保护环境和资源再利用,这些固体废弃物在注浆加固领域得到了有效利用。提出以废弃蒸压加气混凝土砌块和废弃煤矸石2种固体废弃物为主要材料,分别与水泥混合制成2种不同的黏土采空区地基处理充填注浆浆液。试验采用混料配比方式,在凝结时间、黏度、析水率和结石率、流动性和抗压强度方面进行分析,最终选择配比最适宜采空区地基处理的注浆浆液。研究结果表明:废弃蒸压加气混凝土砌块-水泥浆液各组的凝结时间、黏度、析水率和结石率均符合作为采空区地基处理的注浆浆液标准,但在抗压强度标准上只能选择50%和60%的质量替代率;煤矸石-水泥浆液中煤矸石含量为70%和80%的质量替代率浆液在析水率、结石率和抗压强度不符合标准,故只能选择50%和60%的质量替代率的浆液配比;再从经济角度分析,2种浆液都应优选60%的质量替代率的浆液配比。最后,通过对2种浆液的凝结时间、黏度、析水率和结石率、流动性和抗压强度方面对比分析,宜选择煤矸石-水泥浆液用于煤矿采空区地基处理。

超长电力电缆隧道固壁遮挡对土壤热库吸热特征的影响

为探究电力电缆隧道通风设计中土壤热库吸热量简化计算方法的误差和适用范围,采用数值计算方法对隧道传热过程进行三维模拟研究。通过定义切向导热偏差率,量化评价简化计算方法所采用的一维传热假设与实际传热过程的偏差,分析现行简化计算方法在隧道内壁不同遮挡情况下的误差和适用性。结果表明:1)隧道内壁遮挡区边缘位置的切向导热偏差率最高达95%;2)双层隧道的下层空间,由于内壁面被遮挡程度大,使得土壤热库传热呈现典型的二维特征,简化计算方法误差高达57.5%;3)上层空间内壁面遮挡较少,传热过程与简化计算方法所做的一维假设类似,故计算误差仅约10%,这表明隧道土壤热库吸热量现行简化计算方法仅适用于双层隧道的上层空间,但不适用于下层空间。

基于3Dmine软件的冀东某露天矿境界优化设计

以冀东某露天矿为例,利用3Dmine软件建立地表模型、实体模型、块体模型,使用软件境界优化功能,得出了矿床开采最优境界。在综合考虑市场矿石价格与成本变化条件下,实现经济效益最大化,在此基础上进行开采方案的三维设计,布置开拓系统,确定满足特定要求的开采境界。