作者:刘夷平1, 陈超1, 吴锦川1, 全晓军2
作者单位:1. 上海市计量测试技术研究院, 上海 201203;
2. 上海交通大学机械与动力工程学院, 上海 200240
关键词:计量学;钟罩;热动力学;流量
摘要:
使用空调系统调节钟罩式气体流量标准装置的环境温度,其控制效果难以完全满足检定高准确度流量计的要求。为分析钟罩运行期间各状态参数随时间的变化特征,借鉴隙封活塞式气动系统,将排气过程视为一个变容出口系统,建立关于钟罩位移、下降速度、罩内压力和温度的热动力学模型。求解四元常微分方程组,结果表明,如果不考虑气体与环境之间的热交换,会导致一定的测量误差,且误差随着气体与罩壁之间的温差增加而增加。由空调引起的环境压力和温度无规则变化使钟罩内压无法达到恒定,因而排气量变化导致的测量误差难以通过装置结构的改进予以消除。
Thermodynamical analysis of the effect of environmental conditions on measurement error of bell prover
LIU Yiping1, CHEN Chao1, WU Jinchuan1, QUAN Xiaojun2
1. Shanghai Institute of Measurement and Testing Technology, Shanghai 201203, China;
2. School of Mechanical Engineering, Shanghai Jiaotong University, Shanghai 200240, China
Abstract: Using air conditioning system to adjust the environmental temperature of bell type gas flow standard device, but its control effect is difficult to fully meet the requirements of the verification of high accuracy flowmeter. In order to obtain time-variant state parameters during the operation period of bell prover, the discharging process was regarded as a one-exit variable-volume system which was similar to clearance-sealed piston pneumatic system, and a thermodynamic model was presented for the displacement and the velocity of bell prover, as well as the pressure and the temperature inside the bell. An analysis of the thermodynamic model was implemented by solving four first order differential equations. The results show that neglecting the heat exchange between gas and environment will give rise to measurement error, which will become larger with the increased temperature difference. The random variation of environmental pressure and temperature caused by air conditioning system prevents the inner pressure from reaching constant, thus the measurement error caused by variable flow rate is hardly eliminated by the improvement of mechanical structures.
Keywords: metrology;bell prover;thermodynamics;flow rate
2017, 43(6): 118-122,139 收稿日期: 2016-12-05;收到修改稿日期: 2017-01-20
基金项目: 国家自然科学基金(51276109);上海市质量技术监督局科研项目(2015-35)
作者简介: 刘夷平(1974-),男,上海市人,高级工程师,博士,研究方向为气、液流量测量。
参考文献
[1] 王池. 气体流量量值溯源体系探讨[J]. 中国计量学院学报, 2003, 14(3):170-173.
[2] 王池, 崔骊水. 气体流量标准装置钟罩外径测量方法的研究[J]. 计量学报, 2007, 28(3):239-242.
[3] 赵普俊, 雷励, 李金贵, 等. 钟罩式气体流量标准装置的改造[J]. 实用测试技术, 1999, 25(4):23-23.
[4] 王俊涛, 蒲莉萍, 玄春青. 钟罩式气体流量标准测控系统硬件设计[J]. 中国测试, 2013, 39(增刊2):125-128.
[5] 王俊涛, 桑培勇. 钟罩式气体流量标准装置技术改造及试验检定[J]. 中国测试, 2012, 38(增刊1):73-76.
[6] BALLICO M, CHAHINE K, DIGNAN S. Flow metrology at NMIA: current and future projects[C]∥17th International Flow Measurement Conference, 2016.
[7] FILLMER W R, FILLMER C R. Dynamics of the bell prover, II[J]. Journal of Research of the National Institute of Standards and Technology, 1990, 95(1):15-31.
[8] CHOI H M, PARK K A, OH Y K, et al. Improvement and uncertainty evaluation of mercury sealed piston prover using laser interferometer[J]. Flow Measurement and Instrumentation, 2009, 20(4/5):200-205.
[9] KUTIN J, BOBOVNIK G, BAJSIC I. Dynamic effects in a clearance-sealed piston prover for gas flow measurements[J]. Metrologia, 2011, 48(3):123-132.
[10] CARNEIRO J F, DE ALMEIDA F G. Reduced-order thermodynamic models for servo-pneumatic actuator chambers[J]. Journal of Systems and Control Engineering, 2006, 220(4):301-314.
[11] BAJSIC I, KUTIN J, ŽAGAR T. Response time of a pressure measurement system with a connecting tube[J]. Instrum Sci Technol, 2007, 35(4):399-409.
[12] PARLAK N, WAGNER A, ELSNER M, et al. Therm-odynamic analysis of a gamma type stirling engine in non-ideal adiabatic conditions[J]. Renew Energy, 2009, 34(1):266-273.
[13] MICKAN B, KRAMER R. Evaluation of two new volumetric primary standards for gas volume established by PTB[C]∥7th International Symposium of Fluid Flow Measurement, 2009:1-13.
