Adrian Dudek scite author profile

Adrian Dudek

4Publications

17Citation Statements Received

40Citation Statements Given

How they've been cited

How they cite others

Affiliations

Oil and Gas Institute - National Research Institute

Publications

Order By: Most citations

Study of the Effects of Changes in Gas Composition as Well as Ambient and Gas Temperature on Errors of Indications of Thermal Gas Meters

Jaworski

Dudek

2020

Energies

View full text Add to dashboard Cite

Thermal gas meters represent a promising technology for billing customers for gaseous fuels, however, it is essential to ensure that measurement accuracy is maintained in the long term and in a broad range of operating conditions. The effect of hydrogen addition to natural gas will change the physicochemical properties of the mixture of natural gas and hydrogen. Such a mixture will be supplied through the gas system, to consumers, including households, where the amounts of received gas will be metered. The physicochemical properties of hydrogen, including the specific density or viscosity, differ significantly from those of the natural gas components, such as methane, ethane, propane, nitrogen, etc. Therefore, it is of utmost importance to establish the impact of the changes in the gas composition caused by the addition of hydrogen to natural gas on the metrological properties of household gas meters, including thermal gas meters. Furthermore, since household gas meters can be installed outdoors and, taking into account the fact that household gas meters are good heat exchangers, the influence of ambient and gas temperature on the metrological properties of those meters should be investigated. This article reviews a test bench and a testing method concerning errors of thermal gas meter indicators using air and natural gas, including the type containing hydrogen. The indication errors for thermal gas meters using air, natural gas and natural gas with an addition of 2%, 4%, 5%, 10% and 15% hydrogen were determined and then subjected to metrological analysis. Moreover, the test method and test bench are discussed and the results of tests on the impact of ambient and gas temperatures (‒25 °C and 55 °C, respectively) on the errors of indications of thermal gas meters are presented. Conclusions for distribution system operators in terms of gas meter selection were drawn based on the test results.

show abstract

Wpływ warunków środowiskowych i instalacyjnych na proces wymiany ciepła w wybranych przemysłowych gazomierzach miechowych

Dudek¹,

Badawczy²

2020

View full text Add to dashboard Cite

Since 2016, Oil and Gas Institute – National Research Institute (INiG – PIB) has been conducting new research to determine the relationship between ambient temperature and gas temperature in industrial diaphragm gas meters during the measurement, and to develop new recommendations for billing systems using industrial diaphragm gas meters with a throughput of until 25 m3/h. In the first stage, work was carried out, in which the obtained test results confirmed that the heat exchange process in an industrial diaphragm gas meter depends on the ambient temperature, the gas temperature at the inlet to the gas meter, the flow rate of the gas flowing, as well as the casing surface and the gas volume of the gas meter. In the next stage, work was carried out to determine the relationship between ambient temperature and gas temperature at the industrial diaphragm gas meter connection during the measurement. The obtained results undermined the thesis, which indicated that the gas inlet temperature is equal to the gas temperature at the depth of the gas network. In the last stage, work was carried out to determine the course of changes in gas temperature in industrial diaphragm gas meters as a function of ambient temperature and cyclical changes of the gas flow rate, which were to reflect the work of gas meters installed at customers’ premises. The analysis of the obtained test results once again showed a strong dependence of the gas temperature inside industrial diaphragm gas meters on the ambient temperature, but also on the flow rate of gas. The obtained results of laboratory tests will be used to carry out a thermodynamic description of the heat exchange process in an industrial diaphragm gas meter, which would allow the determination of the gas billing temperature as a function of the ambient temperature, the temperature of the inflowing gas and the gas flow rate. The calculated gas temperature values could be used to determine the temperature correction factors applicable when settling gas consumers billed on the basis of measurement with the use of industrial diaphragm gas meters.

show abstract

Wpływ warunków temperaturowych otoczenia na wymianę ciepła w przemysłowych gazomierzach miechowych

Dudek¹,

Jaworski²

2017

View full text Add to dashboard Cite

Wpływ warunków temperaturowych otoczenia na wymianę ciepła w przemysłowych gazomierzach miechowych W artykule omówiono proces wymiany ciepła w przemysłowych gazomierzach miechowych i wpływ warunków atmosferycznych na to zjawisko. Potwierdzono, że wymiana ciepła pomiędzy otoczeniem przemysłowych gazomierzy miechowych a gazem płynącym w ich wnętrzu jest silnie zależna od powierzchni wymiany ciepła, jaką jest obudowa oraz od objętości cyklicznej. Wraz ze wzrostem wielkości gazomierzy miechowych wydłuża się droga dla przepływającego medium, a tym samym i czas oddziaływania temperatury otoczenia, co skutkuje pogłębieniem różnicy pomiędzy temperaturą gazu na wlocie i wylocie z gazomierza. Dalsza analiza pozwoliła na wytypowanie reprezentatywnego miejsca do pomiaru temperatury gazu w celach rozliczeniowych objętości zużytego gazu oraz na opracowanie zaleceń dla układów rozliczeniowych wykorzystujących przemysłowe gazomierze miechowe.Słowa kluczowe: przemysłowe gazomierze miechowe, nierozliczone ilości gazu, proces wymiany ciepła, wpływ warunków atmosferycznych na temperaturę gazu, pomiar termowizyjny. Influence of ambient temperature on the heat transfer process in industrial diaphragm gas metersThe article depicts the process of heat transfer in a diaphragm gas meter and the possible impact of weather conditions on this process. It has been confirmed that the heat exchange between the inner and outer temperatures of an industrial diaphragm gas meter, is dependent on the heat exchange surface such as the housing and the cyclic volume. Along with the increase of the gas meter's size, the path for the flowing medium extends, and hence the time of impact of the ambient temperature, which results in a widening of the difference between the inlet and outlet gas temperatures. Futher analysis allowed to identify a representative place to measure the temperature of the gas, for the purpose of billing the volume of gas consumed and to develop recommendations for billing systems that use industrial diaphragm gas meters.

show abstract

Wpływ warunków środowiskowych na temperaturę gazu w przyłączu gazomierza miechowego

Dudek¹

2018

GAS, WATER AND SANITARY ENGINEERING

View full text Add to dashboard Cite

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

customersupport@researchsolutions.com

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

Adrian Dudek

Study of the Effects of Changes in Gas Composition as Well as Ambient and Gas Temperature on Errors of Indications of Thermal Gas Meters

Wpływ warunków środowiskowych i instalacyjnych na proces wymiany ciepła w wybranych przemysłowych gazomierzach miechowych

Wpływ warunków temperaturowych otoczenia na wymianę ciepła w przemysłowych gazomierzach miechowych

Wpływ warunków środowiskowych na temperaturę gazu w przyłączu gazomierza miechowego

Contact Info

Product

Resources

About