Research of pressure influence in the gas supply system on the energy consuption level of gas devices
DOI:
https://doi.org/10.31471/2311-1399-2019-2(12)-56-63Keywords:
efficiency factor, gas devices, gas flow rate, gas supply.Abstract
There are investigated the influence of operating pressures in the gas supply system on the level of such energy indicators as efficiency, gas flow and gas overrun by gas equipment in residential buildings. There is established a relationship between the values of operating pressures in the gas supply system and the gas consumption level of household appliances. The causes of insufficient pressure in the gas networks of settlements are analyzed in the article. There is also developed an algorithm for calculating the change in the efficiency of gas appliances depending on the operational parameters of the gas network. It has been found that the most efficient operation of gas appliances is observed at an overpressure at the inlet of gas appliances of about 1200 Pa.
To ensure the required quality of natural gas combustion among consumers and minimize gas consumption there are justified the following measures in the article: coordinating a domestic regulatory framework for assessing the quality of natural gas with international norms and standards; improving the preparation of gas coming from local wells before supplying it to gas distribution networks; auditing low pressure gas pipelines and reconstructing areas affected by corrosion; ensuring standard gas pressure in the network for the normal operation of domestic gas appliances; stating quality indicators of natural gas combustion by gas sales organizations.
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Industrial burners. General technical requirements: GOST 21204–97, effective from 1998-07-01, Publishin g house of standards, Moscow, 2002, 35 p. (in Russian)
Combustible natural gases for industrial and domestic purposes: GOST 5542–87. Publishing house o f standards, Moscow, 1987, 4 p. (in Russian)
Staskevich, NL, Severinets, GN & Vigdorchik, DYa 1990, Handbook of gas supply and use of gas, Nedra, Moscow. (in Russian)
Gas supply. Engineering equipment for buildings and structures. External networks and structures: DBN B.2.5-20:2001, official edition, (State Building Standards of Ukraine), State Supervision Over Labor Protection of Ukraine, 2001, 286 p. (in Ukrainian)
Ivanov, YuV 1963, Fundamentals of calculation and design of gas burners, Gostoptehizdat, Moscow. (in Russian)
Kolienko, AG, Shelimanova, OV & Kolienko, VA 2016, ‘On the question of the quality of combustible gas’, Power engineering and automation. no. 1, pp. 135–144. (in Russian)
Ivanov, AA 2011, ‘Modeling and substantiation of rational settlement gas supply systems’: the dissertation, Candidate of Technical Sciences : 05.23.03, Saratov, 157 p.
Pelipenko, VN 2004, Burners for domestic gas stoves: a training manual, TSU, Togliatti. (in Russian)
GOST 22667–82. Combustible natural gases. Calculation method for determining the calorific value, relative density and Wobbe number. (in Russian)
EN 437:2003. Test gases. Test pressures. Appriauce categories (EN 437:2003).
DSTU 2204–93 (State Standard GOST 10798–93).Gas stoves for household use. General specifications. (in Ukrainian)
The Wobbe Index and Natural Gas Inter-changeability. Emerson Process Management. 2007-07-30.
Hou, SS & Chou, CH 2013, ‘Parametric study of high-efficiency and lowemission gas burners’, Adv Mat Sci&Eng, vol. 2013, pp. 1–7.
Stubington, JF, Reashel, G, Murphy, T, Junus, R, Ashman, PJ & Sergeamt, GD 1994, ‘Emissions and efficiency from production cooktop burners firing natural gas’, J Inst Energy, vol. 67, pp. 143–155.
Ashman, PJ, Junus, R, Stubington, JF & Sergeamt, GD 1994, ‘The effects of load height on the emissions from a natural gas-fired domestic cooktop burner’, Combust SciTechnol, vol. 103, pp. 283–298
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