A Cost-Effective Dual-Element Metering System for Wet Gas Flowrate Measurement

Sami Halilah, K. Mokhtari
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Abstract

A wet gas flowmeter based on field-proven flowmeters and flow computers has been developed. The flowmeter is engineered by integrating the well-established SmartCone meter, a Pitot tube meter and filed mounted Flow Computer technologies in one wet gas metering solution. This combination exploits the characteristics of these two flow metering elements in wet gas flowrate measurement; The Cone measurement in wet gas is characterized by its relatively large gas measurement over-read with increasing liquid-loading, whereas this has a significantly lower impact on the gas flowrate measured by the Pitot tube. The DynaCone wet gas flowmeter has been in development over the past several years with particular emphasis being placed on developing a flexible flowmeter for broad operating conditions and applications including high turndown ratio, minimal pressure loss, measurement quality diagnostic, and performance characterization in industry-recognized wet gas flow loop. The wet gas performance has been demonstrated at CEESI wet gas flow loop yielding gas flowrates better than ±3% in Type I wet gas range, and better than ±5% in Type II without the input of liquid flowrate to correct for over-reading. Furthermore, uncertainties better than 2% and 3% for Type I & II respectively can be achieved if periodic liquid flowrate information is available for input.
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一种具有成本效益的湿气流量测量双元件计量系统
在现场实测流量计和流量计算机的基础上,研制了一种湿气流量计。该流量计的设计集成了成熟的SmartCone仪表、皮托管仪表和现场安装的Flow Computer技术,在一个湿气计量解决方案中。这种组合利用了这两种流量测量元件在湿气流量测量中的特点;在湿气中,锥形测量的特点是随着液体载荷的增加,气体测量过读量相对较大,而这对皮托管测量的气体流速的影响要小得多。DynaCone湿气流量计在过去几年中一直在发展,特别强调开发一种灵活的流量计,适用于广泛的工作条件和应用,包括高降压比、最小压力损失、测量质量诊断和行业公认的湿气流动回路的性能表征。在CEESI湿气流动回路中证明了湿气性能,在I型湿气范围内的气体流量优于±3%,在II型中优于±5%,而无需输入液体流量以纠正过读。此外,如果有周期性的液体流量信息作为输入,则I型和II型的不确定性分别大于2%和3%。
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