MWS型微电脑原棉水分测定仪的设计

介绍了MWS型原棉水分测定仪的工作原理及硬件电路和控制程序的设计方法。该仪器采用CHMOS-51系列单片机控制,依据电阻法测水原理,用半导体温度传感器实现了半自动测试、温度自动补偿、液晶显示及语音提示等功能,具有测试快捷、数据稳定准确、使用方便等特点。

CST MWS软件模拟三维螺旋线慢波结构

本文介绍了用CSTMWS软件的周期边界条件计算行波管螺旋线慢波结构的色散和耦合阻抗等冷测特性的方法,用采取螺旋带模型的理论分析计算结果和实验测试值加以验证,取得了比较一致的结果;并应用这种MWS的模拟方法和螺旋带模型的计算方法分析了具有扇形和T形夹持杆慢波结构的冷测特性,结果表明,相速和耦合阻抗都随着扇形角度的增大而减小,随着T形窄端宽度的增加而减小,随着T形窄端高度的增加而增大.

利用MWS对速调管谐振腔的计算和优化

利用电磁计算软件MWS对双重入式几何结构的速调管谐振腔进行了设计,并根据谐振频率和特性阻抗对腔体尺寸进行了仿真优化计算,得到了谐振频率f0为3.0007GHz,特性阻抗R/Q为124.506的双重入式谐振腔的结构参数.对腔体尺寸做了敏感性分析,讨论了腔体尺寸变化对腔体电参量的影响,对具体工程设计具有指导意义.

PLC控制技术在钢管MWS系统中的应用

简述了钢管MWS系统组成;按工位介绍了测长、称重、喷标的基本工作过程;根据工作要求设计了PLC控制系统,并根据模块化设计的思想进行了PLC的程序设计。

利用MWS设计螺旋线行波管耦合结构

利用CSTMWS仿真软件对螺旋线行波管耦合结构进行设计。首先,利用MWS仿真结果得出同轴线与螺旋线慢波结构连接部分的反射系数;接着,对高频窗进行了设计与优化;最后,计算出整个耦合结构可能产生的最大驻波系数小于2.0。对比理论值与冷测试数据表明,实测值小于理论计算的最大驻波系数。因此,在螺旋线行波管耦合结构的设计过程中,通过对驻波系数最大值的控制,可以满足实际工程的要求。

Design and Simulation for the Pulse High-Voltage DC Power Supply (HVPS) of 1.2 MW/2.45 GHz HT-7U Lower Hybrid Current Drive System

The superconducting tokamak HT-7U [1] has been designed by the Institute of Plasma Physics since 1998 and will be set up before 2003. The 1.2 MW /2.45 GHz HT-7U LHCD (Lower hybrid current drive) system which being the most efficient non-induction device can heat the plasma and drive the plasma current has been efficiently in operation 'owl and a particular design of the 2.8 MW/-35 kV high-voltage DC power supply has been already completed and will apply to the klystron of LHCD on HT-7 and the future HT-7U, and the project of the power supply has been examined and approved professionally by an authorized group of high-level specialist in the institute of Plasma Physics. The detailed design of the power supply and the simulation results are referred in the paper.

The coseismic displacements of the 2013 Lushan Mw6.6 earthquake determined using continuous global positioning system measurements

Based on Continuous GPS （CGPS） observation data of the Crustal Movement Observation Network of China （CMONOC） and the Sichuan Continuous Operational Reference System （ SCCORS）, we calculated the horizontal coseismic displacements of CGPS sites caused by the 2013 Lushan Mw 6.6 earthquake. The resuits indicate that the horizontal coseismic deformations of CGPS stations are consistent with thrust-compression rupture. Furthermore, the sites closest to the epicenter underwent significant coseismic displacements. Three network stations exhibited displacements greater than 9 mm （ the largest is 20.9 mm at SCTQ） , while the others were displaced approximately 1 -4 mm.

Flashing and flashing coupled density wave oscillation in natural circulation system

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Periodic Precipitation of Liesegang System under Microwave Radiation

We studied precipitation patterns in a Liesegang system under MW （microwave） irradiation in order to investigate metal salt diffusion in an electrolyte gel. The gel and salt concentrations were varied. MW irradiation induced periodic patterns of precipitation because polar molecules vibrate and rotate in an electromagnetic field. For example, the number of patterns increased by the irradiation. Accordingly, microwave irradiation nonlinearly accelerated the diffusion of ionic molecules.

Domestically Made WH Co. Patent 300 MW Unit Bypass System Analysis

Summary This paper analyses the turbine bypass system design and operation mode for domestically made 300 MW unit with technology imported, and put forward some suggestions about whether bypass system is needed. 1.0 Introduction The domestically made WH Co, patent 300 MW unit is produced according to the technology of American Westinghouse (WH) Corporation. The original

Forced Compressed Air Cooling System for a 300 MW Steam Turbine in Waigaoqiao Power Plant

The 300 MW steam turbine installed in Waigaoqiao Power Plant with combined HPIP cylinders of double casing structure is a product of the Shanghai Turbine Works utilizing licensed technology. It has a large heat storage capacity and good thermal insulation, so the metal temperature of first stage of HP cylinder (FSMTI) may reach 400-450℃ after shut down and it takes 7-8 days to cool to 150℃ by natural cooling, Now with a forced cooling system the cooling time may be reduced to 40 hours, so that the turbine may be opened for repair work in about 5-6 days. The cooling system for #2 unit and test procedure are briefly described below.

清华大学核研院研制5 MW低温核供热试验堆与10 MW高温气冷实验堆的工程技术创新

清华大学核能与新能源技术研究院(简称核研院)先后在1989年和2000年建成了5 MW低温核供热试验堆与10 MW高温气冷实验堆。在建堆过程中,清华大学核研院坚持设计创新与工具创新、工艺创新、工序创新密切结合,完成了一系列关键设备和零部件的制造与安装,使得整个工程项目顺利完工。在工程史研究中,技术工人做出的创新贡献并未引起学术界足够重视。本文表明,技术工人在工具、工艺、工序、制造与安装阶段的技术创新,亦是工程创新的重要保证。

500 MW级冲击式水轮机配水环管加工工艺研究

介绍了500 MW级冲击式水轮机配水环管的加工工艺以及厂内装配工艺研究。配水环管是冲击式水轮机的重要过流部件,配水环管设计为多节,每节配水环管厂内加工、整体预装完成后分节运输到电站进行装配焊接,各节配水环管的加工尺寸和管口角度对现场安装起决定性的影响,对后期机组的稳定运行有重大影响。通过对配水环管各节加工工艺研究,确定了配水环管制造加工工艺流程,保证了配水环管加工精度和质量,配水环管整体厂内装配,经过高精准测量,保证了配水环管装配后尺寸满足设计和安装要求。

1000 MW水轮机多工况运行水力损失及熵产特性分析

为研究1000 MW混流式水轮机组多工况运行时产生的水力损失,使用SST k-ω湍流模型进行数值模拟计算.根据热力学第二定律,基于熵产理论对3种常见出力工况下的水轮机进行水力损失研究,主要是对流动过程中的熵产分布和流场进行分析,从而得到水力损失的具体空间分布情况.研究结果表明:湍流熵产和壁面熵产占水轮机系统总熵产的99%以上,时均速度引起的直接熵产几乎可以忽略不计.熵产主要集中在导叶、转轮和尾水管3个部件,导叶无叶区的高速流动造成较大速度梯度,使得高局部熵产(LEPR)出现在无叶区.转轮内的回流、流动分离等不稳定流动,使得高LEPR区出现在转轮叶片的前缘和尾缘处.尾水管在额定出力下流态最好,偏额定出力工况会在直锥段出现螺旋状涡带或直柱状涡带,且在靠近入口的直锥段中心出现局部回流,导致高LEPR区出现在此处.导叶和转轮在超出力工况产生较大的水力损失,尾水管则在低出力工况下的水力损失较大.

高频GPS监测的阿拉斯加地震同震形变与震级预估

为了进一步研究2020年阿拉斯加矩震级(MW)7.8地震同震形变获取及震级预估,提出一种高频全球定位系统(GPS)监测的阿拉斯加地震同震形变与震级预估方法:利用双差动态定位方法处理震中周边9个高频GPS测站数据,并解算得到这些测站的三维位移波形;最后获取此次地震引起的同震形变并对震级结果进行预估分析。结果表明,近场GPS测站位移波形变化幅度显著,波动幅度变化不仅受震中距的影响,也可能受破裂断层、地震波传播路径及场地效应等的影响;距震中最近的AC12测站水平地面峰值位移约为40 cm,永久水平位移约为24 cm,垂向抬升约30.6 cm,震中140 km范围内的GPS测站均能够监测到量值大于1 cm的永久水平形变,330 km范围内的GPS测站能够监测到毫米级以上的永久水平形变,除AC12测站与AC45测站外,此次地震造成其余测站明显的永久沉降。这些结果反映出此次地震的震源特征表现为逆冲性质,也可为后续的研究工作提供参考;利用这些高频GPS地面峰值位移(PGD)预估此次地震的震级为7.78,与实际震级基本一致,表明利用高频GPS数据进行强震震级快速预估的可靠性。

The MW5.5 earthquake on August 6,2023,in Pingyuan,Shandong,China:A rupture on a buried fault

On August 6,2023,a magnitude MW5.5 earthquake struck Pingyuan County,Dezhou City,Shandong Province,China.This event was significant as no large earthquakes had been recorded in the region for over a century,and no active fault had been previously identified.This study collects 1309 P-wave arrival times and 866 S-wave arrival times from 74 seismic stations less than 200 km to the epicenter to constrain the spatial distribution of the mainshock and its 125 early aftershocks by the double difference earthquake relocation method,and selects 864 P-waveforms from 288 stations located within 800 km of the epicenter to constrain the focal mechanism solution of the mainshock through centroid moment tensor inversion.The relocation and the inversion indicate,the Pingyuan MW5.5 earthquake was caused by a rupture on a buried fault,likely an extensive segment of the Gaotang fault.This buried fault exhibited a dip of approximately 75°to the northwest,with a strike of 222°,similar to the Gaotang fault.The rupture initiated at the depth of 18.6 km and propagated upward and northeastward.However,the ground surface was not broken.The total duration of the rupture was~6.0 s,releasing the scalar moment of 2.5895×1017 N·m,equivalent to MW5.54.The moment rate reached the maximum only 1.4 seconds after the rupture initiation,and the 90%scalar moment was released in the first 4.6 s.In the first 1.4 seconds of the rupture process,the rupture velocity was estimated to be 2.6 km/s,slower than the local S-wave velocity.As the rupture neared its end,the rupture velocity decreased significantly.This study provides valuable insights into the seismic characteristics of the Pingyuan MW5.5 earthquake,shedding light on the previously unidentified buried fault responsible for the seismic activity in the region.Understanding the behavior of such faults is crucial for assessing seismic hazards and enhancing earthquake preparedness in the future.

多浮筒全潜式海上风机整机拖航运动特性试验对比

[目的]基于搭载了DTU 10 MW风机的三四筒型全潜式浮式风机整机海上拖航过程,开展了物理模型试验,对比研究三浮筒型式和四浮筒型式的SFOWT在拖航过程中各自由度运动响应及拖缆力在不同工况下的变化规律。[方法]首先在静水中开展自由衰减试验,随后在规则波和不规则波浪环境中开展拖航过程试验,研究不同的拖缆点高度、波高以及周期对拖航过程的影响。[结果]结果表明:(1)对SFOWT的垂荡、横摇和纵摇自振周期进行分析,发现相同自由度下2种结构SFOWT的自振周期相差在5 s以内,三浮筒式SFOWT与四浮筒式SFOWT相比,三浮筒式SFOWT垂荡加速度更小,纵摇和横摇的自然周期更大;(2)随着波高的增加,SFOWT在各自由度上的响应以及拖缆力都在增大,规则波和不规则波工况下波高的增加对三浮筒型式SFOWT垂荡加速度、横摇角的影响更大,纵摇角以及拖缆力较小;(3)当波浪周期与SFOWT自身的固有周期相差较大时,随着波浪周期的增大,除垂荡加速度外SFOWT各自由度上的响应呈现减小的趋势;(4)当拖缆点高度与水线面齐平时,2种型式SFOWT的拖缆力幅值较其他两种工况最大分别减小11.1%和14.7%。[结论]四浮筒型式SFOWT的拖航运动性能更佳。在实际工程中,应当将拖缆点高度布置在结构自浮时水面线所在的位置,以减小拖航过程中的运动响应。

风浪流单独及耦合作用下15 MW级浮式基础动力特性研究

了解风浪流等环境荷载效应对浮式基础设计及优化至关重要,为此,以15 MW级漂浮式基础为研究对象,系统性定量分析风浪流环境荷载单独及耦合作用下对浮式基础运动及系泊系统受力的影响。首先,以INOWINDMOOR 12 MW和TaiDa 15 MW浮式基础为原型设计新的15 MW级浮式基础,并在ANSYS-AQWA建立水动力分析模型,风力荷载及海流荷载通过风力系数、流力系数添加;其次,针对风浪流等环境荷载单独及耦合作用下浮式基础运动和系泊受力等特征开展分析。结果表明:浮式基础运动及系泊受力主要受风力和流力的影响,波浪会加剧浮式基础运动及系泊受力的往复性,并加大运动幅度及系泊受力;流荷载对浮式基础运动及系泊受力影响较大,特别是风、浪与流耦合作用时会导致系泊受力明显增加,实际工程设计时,流荷载应给与重点关注。

基于化学团聚技术强化脱除细颗粒物的试验研究

燃煤机组经过超低排放改造后,除尘器对粉尘的脱除效率大大提升。然而,除尘器对PM_(2.5)等细颗粒的捕获能力有限,导致许多细颗粒通过烟囱排入大气,降低了周边空气质量。基于化学团聚技术,在国内某600 MW燃煤电站开展细颗粒物排放控制示范试验研究,旨在通过系统的采样测试探究化学团聚技术对PM_(2.5)排放的控制效果。基于固定污染源采样标准(ISO 23210-2009)开展现场采样测试。对化学团聚技术投运前后细颗粒物排放质量浓度进行检测,依托样品表征方法对颗粒样品进行测试分析,综合评价化学团聚技术对燃煤细颗粒排放的控制作用。结果表明:团聚吸附剂喷射后,静电除尘器(electrostatic precipitator,ESP)入口粉尘的平均粒径由57.3μm增大至69.6μm,平均粒径增大21.5%;团聚后,ESP入口PM_(1),PM_(2.5),PM_(10)质量浓度分别由124.2 mg/m^(3),359.5 mg/m^(3),947.7 mg/m^(3)减小至85.6 mg/m^(3),240.6 mg/m^(3),492.0 mg/m^(3),团聚效率分别为31.1%,33.1%,48.1%。飞灰粒径筛分结果表明:团聚后,粒径在38μm以下的飞灰质量分数由32.7%减小至9.2%,而粒径在38μm~75μm范围内的飞灰质量分数由29.7%增大至62.8%;最终,在团聚吸附剂作用下,湿法烟气脱硫(wet flue gas desul furization,WFGD)出口总粉尘质量浓度由1.32 mg/m^(3)降低至1.09 mg/m^(3)。综上,化学团聚技术对燃煤电站细颗粒物团聚效果显著,PM_(2.5)脱除效率显著提升。

1000MW汽轮机中压阀门异常振动分析及治理

针对某型超超临界1000MW机组运行过程中出现中压阀门振动过大的异常现象,对中压阀门以及机组轴系振动进行测试及分析,得出中压阀门振动以50Hz分量为主,与机组转频、阀门固有频率比较接近,表明中压阀门存在结构共振现象,且激振源为中压转子。进一步分析表明:中压缸进汽阀门组弹簧支撑刚性不足、中压缸载荷不均,是诱发中压阀门结构共振的主要原因。在检修中,更换新的中压阀门支撑弹簧,并提高其预压紧量,提升其刚度及稳定性;对中压缸缸体进行载荷分配,提升缸体稳定性,从而降低中压转子振动对阀门的影响。处理后,1000MW机组中压阀门振动大幅降低,提高了机组的安全可靠性,具有很好的工程借鉴价值。