Flow-rate Characteristics Measurement of Regulators Based on the Pressure Response in an Isothermal Tank

Regulators are important components in pneumatic system, and their flow-rate characteristics are the key parameters for designers. According to the correlatively international standard and national standard of China, which describe the flow-rate characteristics measurement method of pneumatic regulators, the pressure and the flow are measured point by point, and then the flow-rate characteristics curve is plotted point to point. This method has some disadvantages, such as equipment complexity, much air consumption, and low efficiency. To settle the problems presented above, this paper puts forward a new high efficient and energy saving flow-rate characteristics measurement method of regulators, which is based on the pressure response when charging and discharging to an isothermal tank without any flow meters. The measurement principle, the system and the steps are introduced. And the tracking differentiator is used for the data processing of the pressure difference. Two typical kinds of regulators were experimentally investigated, and their flow-rate characteristics curves were obtained with the new and the conventional method, respectively. Comparatively, it＇s proved that this new method is feasible because it is not only able to meet the demand of the measurement precision, but also to save energy and improve efficiency. Compared to the conventional method, the new method takes only about 1/10 amount of time and consumes about only 1/30 amount of air. Hopefully it will be able to serve as an international standard of flow-rate characteristics measurement method of regulators.

Adjusting the Parameters of PI Regulator in All-electrical Tank Gun Control System by Computer Program

Both the traverse subsystem and the elevation subsystem of the all-electrical tank gun control system are composed of electrical drive control system respectively. The parameters of PI regulator in these electrical drive control systems affect the performance of the control system seriously. Up to now, there is not a simple and practical method for choosing regulator parameters, which are usually determined by repeated and continual readjustment. This method is low efficient, and the parameters got are not always optimal. A method for on-line adjusting the parameters of PI regulator in the electrical drive control system by computer program is introduced in this paper. The function of adjusting PI parameters of the electrical drive control system is realized by PC program written by VC++ and controlling program written by assemble language and by the communication between PC and DSP completed by the control MSCOMM in VC++6.0. The method as mentioned above which is applied for an all-electrical tank gun control system under development is proved very available, a better performance might be obtained for the all-electrical tank gun control system easily.

基于“船载舱养”模式国内养殖工船的大气和水污染排放控制研究

基于“船载舱养”的养殖工船模式构建理念,结合10万吨级大型养殖工船建造项目,阐述目前法规、国标对养殖工船防止大气污染和防止水污染的控制措施,并对养殖工船设计、建造和营运给出建议。

河道大型调蓄池泥沙冲洗方案比选研究

为减轻大型调蓄池池内泥沙淤积情况,提高调蓄池的运行效率,以深圳市南川区大沙河流域调蓄池工程为例,提出真空冲洗方案、门式冲洗方案、智能喷射器方案以及水力翻斗冲洗方案四种泥沙冲洗方案。结果表明:真空冲洗方案运行费用最低,维护最简单、安全,冲洗效果最好,使用寿命最长,且工程造价在四种方案(智能喷射器方案1350万元>门式冲洗方案910万元>真空冲洗方案810万元>水力翻斗方案600万元)中相对较低,综合考虑以上各项因素,最终选择真空冲洗方案为调蓄池的泥沙冲洗方案。

山东省某经济区污水处理厂扩容改造工程实例

由于山东省某经济区内约13 km^(2)区域被省政府认定为化工产业园,部分搬迁至该经济区的企业因有提前投产计划,原经济区污水处理厂不能满足提前投产企业的废水处理需求,且该园区新配套污水处理厂建设滞后,因此原污水处理厂亟需扩容改造。扩容改造工程采用“预曝气调节池+A/O生化池+二沉池+溶气气浮池+活性炭过滤”组合工艺,该工艺运行高效稳定,出水水质达到设计标准,且符合《城镇污水处理厂污染物排放标准》(GB 18918—2002)一级A标准。

锂渣填埋场污水调节池容积设计的探讨

锂渣的废物性质根据其原矿所含物质和选矿工艺等差别一般划归为第Ⅱ类一般工业固体废物或危险废物。针对锂渣填埋场设计,适用的规范对污水调节池设计具体容积缺乏明确说法的情况,对填埋场污水性质的确定与区分,并对比生活垃圾填埋场、危险废物填埋场、干式尾矿库、干排赤泥库、干式磷石膏库、干式贮灰场等相关规范要求,对锂渣填埋场污水调节池容积的确定与计算进行了探讨。

阻抗式调压塔在长距离有压输水箱涵中水锤防护的研究与应用

为研究阻抗式调压塔在长距离有压输水箱涵中水锤防护的作用,文章以某一新建低扬程泵站长距离有压输水箱涵工程为例,进行过渡过程计算,提出了相应的水锤防护方案,并进一步探究了阻抗式调压塔的关键参数对输水箱涵及机组的影响。结果表明,通过合理的闸门关闭规律和空气阀、阻抗式调压塔的组合方案,可以有效地控制输水箱涵内的水锤压力和机组反转转速等关键参数,确保工程安全运行。

邯钢3200 m^(3)高炉喷煤工艺稳定性提升的研究

喷煤稳定性对高炉冶炼至关重要,针对3 200 m^(3)高炉喷吹稳定差、均匀性控制困难的问题,通过改进喷煤工艺、改造设备,提高了喷煤工艺的稳定性,为高炉稳定顺行奠定了基础。对喷吹罐的排气装置进行改造,不仅缩短了装煤时间,为充压硫化提供了有利条件,还能防止积煤,确保生产安全。喷煤罐稳压系统增加调节阀门、切断阀门、小放散阀,以减小喷吹罐压力波动,将罐压保持在设定值±0~5 kPa,提高喷吹速率的稳定性。

船舶燃料稳压过滤供应系统的设计

对船舶燃料的稳定清洁供应进行研究,设计一种船舶燃料稳压过滤供应系统。燃料过滤供应系统可有效过滤杂质,改善燃料品质。燃料稳压供应舱可在舱内实现压力调节,保证燃料供应压力稳定。结合两者优点的船舶燃料稳压过滤供应系统可确保船舶发动机的良好运转,具有较高的实际应用价值。

凉州区西营五干片区调蓄水池规模复核分析

本文针对凉州区西营五干片区现状调蓄能力不足的问题,提出通过建设调蓄水池提高水资源利用效率的方案,依据项目区产业发展规划,预测调蓄水池需供水量,探讨调蓄水池容积的确定方法,分析工程实施后的水资源配置。成果表明:工程平水年可蓄水3次,总蓄水量2204.28万m3,可满足重点企业生产、绿化等用水,同时也可提供灌溉、生态用水。

高扬程长爬坡泵系统水锤的防护

针对“高扬程、长爬坡”输水系统事故停泵水锤防护问题,以某供水工程为例,基于特征线算法,分析单向调压塔、空气罐、空气阀等不同水锤防护措施联合下的过渡过程特性,重点探讨了空气罐的水锤防护特点.结果表明:在泵后布置空气罐能在爬坡段有效提高最小水锤压力,且随着空气罐体积增加,水泵倒转转速虽略有增加,但总体水锤防护效果较好;单向调压塔对安装点之后高程低于塔内水位的管线保护作用较强,对安装点之前爬坡管线几乎无保护作用;采用以空气罐-单向调压塔-空气阀相结合可以有效减小空气罐体积,最优方案下最大水锤压力为348.98 m,最小水锤压力为-2.87 m,满足水锤防护要求;对“高扬程、长爬坡”的泵系统,以空气罐为主进行联合水锤防护是一种安全、经济的防护方案.

Water hammer protection for diversion systems in front of pumps in long-distance water supply projects

For a water supply system with long-distance diversion pipelines, in addition to the water hammer problems that occur beyond pumps, the safety of the water diversion pipeline in front of pumps also deserves attention. In this study, a water hammer protection scheme combined with an overflow surge tank and a regulating valve was developed. A mathematical model of the overflow surge tank was developed, and an analytical formula for the height of the overflow surge tank was derived. Furthermore, a practical water supply project was used to evaluate the feasibility of the combined protection scheme and analyze the sensitivity of valve regulation rules. The results showed that the combined protection scheme effectively reduced the height of the surge tank, lessened the difficulties related to construction, and reduced the necessary financial investment for the project. The two-stage closing rule articulated as fast first and then slow could minimize the overflow volume of the surge tank when the power failure occurred, while the two-stage opening rule articulated as slow first and then fast could be more conducive to the safety of the water supply system when the pump started up.

机翼油箱口盖的抗冲击性能研究进展

机翼油箱口盖与其周围的机翼外板共同构成飞机气动外形的一部分,飞机在服役过程中,油箱口盖无法避免地会遭受外物的撞击,确保油箱口盖的抗冲击性能对保证飞机安全性具有重要的意义。本文从适航法规要求、常用材料和结构形式、考核方法与评价3个方面系统地介绍了机翼油箱口盖抗冲击性能的研究进展,总结了目前的研究结论,并对未来机翼油箱口盖的发展进行了展望,可为后续新型口盖的设计和制造提供一定的理论和技术参考。

危险化学品常压储罐安全研究综述

随着我国石油化工行业的发展,用来储存石油以及液体石油产品等危险化学品的常压储罐数量也在不断增加,相关事故时有发生。然而,关于危险化学品常压储罐事故的研究并不完善,相关的法规标准体系也存在缺陷。针对此问题,从多角度出发,总结了危险化学品常压储罐相关事故研究的进展与不足。通过对国内关于危险化学品常压储罐法律、法规,有关部门发布的政策规章,以及行业标准的研究,结合相关企业意见,归纳了其标准化工作与日常管理工作中存在的问题,并提出建议,以期为减少危险化学品常压储罐事故提供参考。

掺氢条件下的燃气轮机调压站设计

[目的]随着“双碳”目标的进展,利用光伏和风电制取绿氢成为一个热门和前沿的方向。氢气利用产业中的燃气轮机掺氢燃烧,是氢转化成电能的最后一个环节。而调压站介于管网和燃气轮机前置模块之间,主要功能是将燃气轮机燃料调整到满足燃气轮机所要求的温度和压力。随着燃气轮机采用天然气掺烧氢气作为燃料,有必要研究调压站在新的边界条件的系统配置,为后续燃气轮机掺氢燃烧提供工程用可实施解决方案。[方法]通过GT Pro软件的模拟计算,给出F级燃气轮机在燃用掺氢天然气条件下燃料需求量,结合F级燃气轮机前置模块对燃料的压力和温度的要求,给出混合器的推荐位置,混合后管道的材质选择和流速选择,及相关阀门选型时需关注的问题。[结果]文章给出了燃气轮机掺氢燃烧时,调压站的混合器设计位置、管道材质选择、管径选择和阀门选型相关注意事项。[结论]在使用掺氢天然气作为燃气轮机的燃料时,受氢气物理特性与天然气中主要成分甲烷的物理特性存在很大差别,需要在腐蚀、防爆等因素上给予特别考虑,在调压站系统中的调节阀前设置混合器,有助于为燃气轮机前置系统提供符合压力和温度要求的燃料,而混合器后的管道、阀门在尺寸上根据混合气体的物理特性,选择相应的尺寸及材质。

大型LNG储罐承台电伴热设计总结

相比传统高式布置液化天然气(LNG)储罐,低式储罐承台布置可以节省大量的建设成本,但需要考虑承台电伴热。对比分析了并联恒功率、并联自限温等几种方案的优缺点,结合某沿海项目200 dam^(3)LNG储罐承台结构保温及环境数据,采用一维稳态导热法计算分析了承台所需要的伴热功率,进而选择合适的电伴热带。对比分析了传统RTD测温控制和光纤分布式测温方案,分析了设计中配电回路分配及用电消耗、设计院与供应商设计分工,给出电气设计参考工程量,对同类LNG罐底电伴热设计具有参考意义。

钢管混凝土施工控制技术研究

钢管混凝土结构是具有高承载、高抗剪的结构,目前在工程建设中已逐渐展现出优势,随着钢管混凝土建筑结构日趋完善与成熟,钢管混凝土在工业与民用建筑中的应用也将越来越多。结合北湖渠桥桥区积水治理工程盖挖雨水调蓄池的施工实例,主要对钢管混凝土柱的施工难点、工艺流程、主要技术方法、质量控制措施等进行分析并提出建议,可为类似工程施工提供参考。

污水调节储罐VOC_(S)恶臭气体抽吸方案探讨

结合实际工程案例,对污水处理系统污水调节储罐VOC_(S)恶臭气体抽吸配套设置呼吸阀与泄放阀方案的利与弊进行讨论并提出相应的解决方案。

大型调压系统安装精度控制研究

调压系统的精确安装是保证调压系统有效运行的重要前提,调压系统中调压罐的安装、并线管道的安装、支墩的设计都是调压系统安装精度控制的重点。通过项目的研究,解决多线并联的大型调压系统的安装问题,制定大型调压系统管道及调压罐的安装方案,并将其标准化,有利于安装进度的加快和工程质量的提高。

地下水池中内框架的整体建模计算与手册平面算法对比分析

随着城市雨水系统更新,调蓄池的建设规模及数量日渐增多。针对调蓄池水池结构,由于其体积较大及池体本身内部构造需求,通常需在其内设置内框架以保证整体性及经济性。当计算内框架时,采用常规手册算法具有一定局限性,故需采用整体计算方法加以佐证。文中结合实际工程,对比两种计算方法结果,供设计人员参考借鉴。