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使用环状蓄液池的精密铸造
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作者 申泽骥 《铸造》 CAS CSCD 北大核心 2003年第1期78-78,共1页
关键词 环状蓄液池 精密铸造 陶瓷型壳
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温室内作物输送营养液成套设备的研究
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作者 李延国 李建军 +4 位作者 黄雷 欧志鹏 任慧 杨眉 乔琦 《吉林农业(学术版)》 2012年第10期149-149,共1页
温室内作物输送营养液成套设备由控制设备、营养液进入管路、营养液吸出管路、蓄液池、滴灌设备组成,利用单片机接收每一套设备中的浮动阀和排液阀的反馈信号并控制主泵和每一套设备中的吸液泵的开关,从而调节各个蓄液池内的营养液的流... 温室内作物输送营养液成套设备由控制设备、营养液进入管路、营养液吸出管路、蓄液池、滴灌设备组成,利用单片机接收每一套设备中的浮动阀和排液阀的反馈信号并控制主泵和每一套设备中的吸液泵的开关,从而调节各个蓄液池内的营养液的流量和对滴灌设备内营养液的流量进行定时、定量控制,使温室内的作物可以长期维护于最佳营养状态。 展开更多
关键词 营养 滴灌设备 蓄液池 单片机
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从安全环保角度审视油库的选址与设计问题 被引量:14
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作者 姜玉梅 张俊义 折恕平 《油气储运》 CAS 北大核心 2010年第3期229-231,共3页
分析了近年来油库发生的重大安全环保事故案例,总结了油罐事故的特点,包括突发性、蔓延性、后果严重性。指出油库地理位置高、油库与河流距离偏近、油库容量过大、油罐密度过高是在役油库存在的安全隐患,提出建设事故应急蓄液池作为补... 分析了近年来油库发生的重大安全环保事故案例,总结了油罐事故的特点,包括突发性、蔓延性、后果严重性。指出油库地理位置高、油库与河流距离偏近、油库容量过大、油罐密度过高是在役油库存在的安全隐患,提出建设事故应急蓄液池作为补救措施。从安全环保角度对拟建油库的选址和设计提出了要求。 展开更多
关键词 油库选址 油库设计 安全隐患 环境污染 应急蓄液池
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钢筋混凝土结构施工缝的设置及处理方法 被引量:4
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作者 殷达 陈周根 《浙江建筑》 2001年第5期32-33,共2页
该文分析了钢筋混凝土结构中筏板基础、箱形基础、蓄液池、深梁、箱梁及高柱等的施工缝的位置设置,并提出了几种处理方法。
关键词 钢筋混凝土结构 施工缝 设置 箱形基础 蓄液池
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Dynamic characteristics of hydraulic power steering system with accumulator in load-haul-dump vehicle 被引量:3
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作者 杨忠炯 何清华 柳波 《Journal of Central South University of Technology》 2004年第4期451-456,共6页
Using hydraulic power steering system of model EIMCO 922 load-haul-dump vehicle as a simulation example, the dynamic characteristics of hydraulic power steering system in load-haul-dump vehicle were simulated and disc... Using hydraulic power steering system of model EIMCO 922 load-haul-dump vehicle as a simulation example, the dynamic characteristics of hydraulic power steering system in load-haul-dump vehicle were simulated and discussed with SIMULINK software and hydraulic control theory. The results show that the dynamic characteristics of hydraulic power steering system are improved obviously by using bladder accumulator, the hydraulic power steering system of model EIMCO 922 load-haul-dump vehicle generates vibration at the initial stage under the normal steering condition of pulse input, and its static response time is 0.25 s shorter than that without bladder accumulator. Under the normal steering working condition, the capacity of steering accumulator for absorbing pulse is directly proportional to the cross section area of connecting pipeline, and inversely proportional to the length of connecting pipeline. At the same time, the precharge pressure of nitrogen in steering accumulator should be 60%80% of the rated minimum working pressure of hydraulic power steering system. Under the abnormal steering working condition, the steering cylinder piston may obtain higher motion velocity, and the dynamic response velocity of hydraulic power steering system can be increased by reducing the pressure drop of hydraulic pipelines between the accumulator and steering cylinder and by increasing the rated pressure of hydraulic power steering system, but the dynamic characteristics of hydraulic power steering system in load-haul-dump vehicle have nothing to do with the precharge pressure of nitrogen in steering accumulator. 展开更多
关键词 load-haul-dump vehicle hydraulic power steering system ACCUMULATOR dynamic characteristics (simulation)
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Development of hydraulic power unit and accumulator charging circuit for electricity generation,storage and distribution 被引量:2
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作者 姜继海 刘海昌 《Journal of Harbin Institute of Technology(New Series)》 EI CAS 2008年第1期60-64,共5页
It is the purpose of the present paper to convert hydraulic energy to electric energy and saves both the pressure and electrical energy for re - use during the next system upstroke using two secondary units coupled to... It is the purpose of the present paper to convert hydraulic energy to electric energy and saves both the pressure and electrical energy for re - use during the next system upstroke using two secondary units coupled to induction motor to drive cylinder loads. During upstroke operation, the variable pump/motor (P/M) driven by both electric motor and the second (P/M) works as hydraulic pump and output flow to the cylinders which drive the load. During load deceleration, the cylinders work as pump while the operation of the two secondary units are reversed, the variable (P/M) works as a motor generating a torque with the electric motor to drive the other (P/M) which transforms mechanical energy to hydraulic energy that is saved in the accumulator. When the energy storage capacity of the accumulator is attained as the operation continues, energy storage to the accumulator is thermostatically stopped while the induction motor begins to work as a generator and generates electricity that is stored in the power distribution unit. Simulations were performed using a limited PT2 Block, i.e. 2nd-order transfer function with limitation of slope and signal output to determine suitable velocity of the cylinder which will match high performance and system stability. A mathematical model suited to the simulation of the hydraulic accumulator both in an open-or close-loop system is presented. The quest for improvement of lower energy capacity storage, saving and re-utilization of the conventional accumulator resulting in the short cycle time usage of hydraulic accumulators both in domestic and industrial purposes necessitates this research. The outcome of the research appears to be very efficient for generating fluctuation free electricity, power quality and reliability, energy saving/reutilization and system noise reduction. 展开更多
关键词 electricity generation accumulator charging circuit hydraulic accumulator energy-reutilization
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