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Vacuum technology — Standard methods for measuring vacuum-pump performance — Part 1: General description
| 분야 | ISO/TC 112 : Vacuum technology |
|---|---|
| 적용범위 | This document specifies three methods for measuring the volume flow rate and one method each for measuring the base pressure, the compression ratio, and the critical backing pressure of a vacuum pump. The first method for measuring the volume flow rate (the throughput method) is the basic concept, in which a steady gas flow is injected into the pump while the inlet pressure is measured. In practice, the measurement of gas throughput may be complicated or inexact. For this reason, two other methods are specified which avoid the direct measurement of throughput. The second method for measuring the volume flow rate (the orifice method) is used when there is very small throughput at very small inlet pressures (under a high or ultra-high vacuum). It is based on measuring the ratio of pressures in a two-chamber test dome in which the two chambers are separated by a wall with a circular orifice. The third method for measuring the volume flow rate (the pump-down method) is well suited for automated measurement. It is based on the evacuation of a large vessel. The volume flow rate is calculated from two pressures, before and after a pumping interval, and from the volume of the test dome. Different effects, such as leak and desorption rates, gas cooling by nearly isentropic expansion during the pumping interval, and increasing flow resistance in the connection line between test dome and pump caused by molecular flow at low pressures, influence the results of the pressure measurement and the resulting volume flow rate. The choice of the required measurement methods depends on the properties of the specific kinds of vacuum pump, e.g. the measurement of the critical backing pressure is only necessary for vacuum pumps which need a backing pump. All data that are measured on a vacuum pump, but not specified in this document (e.g. measurement of power consumption), are defined in the specific pump standard. |
| 국제분류(ICS)코드 | 23.160 : 진공공학 |
| 페이지수 | 28 |
| Edition | 2 |
| No. | 표준번호 | 표준명 | 발행일 | 상태 |
|---|---|---|---|---|
| 1 | ISO 21360-1:2020 | Vacuum technology — Standard methods for measuring vacuum-pump performance — Part 1: General description | 2020-06-15 | 표준 |
| 2 | ISO 21360-1:2012 | Vacuum technology — Standard methods for measuring vacuum-pump performance — Part 1: General description | 2012-04-20 | 구판 |
ISO 21360-4:2018 - Vacuum technology — Standard methods for measuring vacuum-pump performance — Part 4: Turbomolecular vacuum pumps 상세보기
ISO 21360-3:2019 - Vacuum technology — Standard methods for measuring vacuum pump performance — Part 3: Specific parameters for mechanical booster vacuum pumps 상세보기
ISO 21360-2:2020 - Vacuum technology — Standard methods for measuring vacuum-pump performance — Part 2: Positive displacement vacuum pumps 상세보기
ISO 21360-5:2023 - Vacuum technology — Standard methods for measuring vacuum-pump performance — Part 5: Non-evaporable getter (NEG) vacuum pumps 상세보기
ISO 21360-6:2023 - Vacuum technology — Standard methods for measuring vacuum-pump performance — Part 6: Cryogenic vacuum pumps 상세보기
ISO 21360-2:2020 - Vacuum technology — Standard methods for measuring vacuum-pump performance — Part 2: Positive displacement vacuum pumps 상세보기
ISO 2715:2017 - Liquid hydrocarbons — Volumetric measurement by turbine flowmeter 상세보기
ISO 21360-3:2019 - Vacuum technology — Standard methods for measuring vacuum pump performance — Part 3: Specific parameters for mechanical booster vacuum pumps 상세보기
ISO 17714:2007 - Meteorology — Air temperature measurements — Test methods for comparing the performance of thermometer shields/screens and defining important characteristics 상세보기
ISO 17713-1:2007 - Meteorology — Wind measurements — Part 1: Wind tunnel test methods for rotating anemometer performance 상세보기
IEC TS 63134:2020 - Active assisted living (AAL) use cases 상세보기
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