Parametric Model of Modern Gas-Tube Boilers

The paper presents the results of the data collection and statistical processing in relation to the parameters of more than 240 models of modern gas-tube boilers having a two- and a three-way configuration with thermal capacity ranging from 250 to 6000 kW. Using the results of the regression analysis, the derived system of equations is a parametric model of modern gas-tube boilers. A comparison of two- and a three-way configurations of gas-tube boilers shows their difference at equal thermal capacity.

котел, газотрубный котел, параметры современного котла, boiler, gas-tube boiler, modern boiler parameters

1. Novikova E.E., Mikhaylov A.G. Teplovoy raschet topki gazotrubnogo kotla [Thermal analysis of gas-tube boiler]. Novaya nauka: sovremennoe sostoyanie i puti razvitiya. 2016. No. 10-2. Pp. 194–197. (rus)

2. Kurilenko N.I., Artamonov P.A., Mikhailova L.Yu. Organizatsiya vozdushnykh potokov dlya povysheniya effektivnosti raboty blochnykh avtomatizirovannykh kotel'nykh [United air flow to improve performance of block automated boiler]. Vestnik of Tomsk State University of Architecture and Building. 2014. No. 4. Pp. 171–178. (rus).

3. Kurilenko N.I., Artamonov P.A., Mikhailova L.Yu. Parametry effektivnoi raboty deflektorov v blochnykh avtomatizirovannykh kotel'nykh [Performance parameters of deflectors in modular boiler houses]. Vestnik of Tomsk State University of Architecture and Building. 2015. No. 4. Pp. 171–178. (rus).

4. Kasparov S.G. Osobennosti sovremennykh zharotrubnykh kotlov dlya otopitel'nykh sistem [Modern gas-tube boilers for heating systems]. Kharkiv: Samizdat Publ., 2010. 29 p. (rus)

5. Paley E.L. Proektirovanie kotel'nykh v sektore ZhKKh. Spravochnoe prakticheskoe posobie [Design of boiler houses in housing sector. Reference practical guide]. St.-Petersburg: Gas Club, 2006. 172 p. (rus)

6. Mirowski A., Lange G., Elen' I. Materialy dlya proektirovaniya kotel'nykh i sovremennykh sistem otopleniya [Materials for design of modern boiler stations and heating systems]. Poland: Viessmann Publ., 2005. 293 p. (rus)

7. Bochkarev V.A., Bochkareva A.V. Analiz vliyaniya kachestva topliva na ekologicheskie pokazateli kotel'nykh agregatov maloy moshchnosti v irkutskoy oblasti [Fuel quality and environmental performance of boilers of small capacity in the Irkutsk Region]. Vestnik Irkutskogo gosudarstvennogo tekhnicheskogo universiteta. 2016. No. 11. Pp. 119–126. (rus)

8. Artamonov P.A. Povyshenie effektivnosti raboty kotloagregatov stabilizatsiei vozdushnoteplovogo rezhima blochno-modul'nykh kotel'nykh : dis. … kand. tekhn. nauk [Efficiency improvement of boiler operation through stabilization of air-heat mode. PhD Thesis]. Tyumen, 2016. 155 p. (rus)

9. Laurent P.-J. Approksimatsiya i optimizatsiya [Approximation et optimisation]. Moscow: Mir Publ., 1975. P. 496. (transl. from Fr.)

10. Tekhnicheskiy katalog 2015 CibUnigas. Monoblochnye gorelki [Technical catalog 2015. CibUnigas. Single-block burners]. Available at: www. cibunigas. com/ (rus)