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Orifice flowmeter features description

Orifice flowmeter features
The structure of the throttling device is easy to copy, simple and firm, stable and reliable in performance, long in service life and low in price.
The orifice plate calculation adopts a wide range of international standards and processing applications, all single-phase flow can be measured, and some mixed phase flow can also be applied.
With online and dynamic full compensation function, it also has self-diagnosis and self-setting range.
Equipped with a variety of communication interfaces, high range of wide range, greater than 10:1 Intelligent technical indicators High precision: ±0.075% High stability: better than 0.1% FS / annual high static pressure: 40MPa continuous work for 5 years without adjustment School can ignore temperature and static pressure to influence high overpressure
The standard throttle device can be used without real-flow calibration. The integrated orifice plate is simpler to install and does not require a pressure tube. It can be directly connected to a differential pressure transmitter and a pressure transmitter.
Intelligent features
Imported monocrystalline silicon intelligent differential pressure sensor
High precision, perfect self-diagnosis
The intelligent orifice flowmeter can be self-programmed and adjusted.
The cumulative flow rate, instantaneous flow rate, pressure, and temperature can be displayed simultaneously.
The fluid filled with pipes, when they flow through the throttling device in the pipe, the flow will form a local contraction at the throttle of the throttling device, thereby increasing the flow rate and the static pressure is low, so that the throttle is generated before and after the throttle The pressure drop, that is, the pressure difference, the greater the flow rate of the medium flow, the greater the pressure difference generated before and after the throttle, so the orifice flow meter can measure the flow rate by measuring the pressure difference. This measurement method is based on the law of energy conservation and the law of flow continuity.

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