Energy Efficiency Improvement of Boiler Circuit

The paper presents three-dimensional models of the most common layouts of boiler circuits with the autonomous system of heat supply. The hydraulic characteristic of each layout is obtained. Calculation results of the main performance indicators are obtained for these layouts, namely: energy and metal consumption, capital and operating costs. It is suggested to reduce energy consumption of pumping equipment in the boiler circuit. A complex estimation of considered variants is given from the viewpoints of the boiler station manufacturer and operating organization. Also, the investment potential is calculated herein.

котельная, котловой контур, циркуляционный насос, энергоэффективность, boiler station, boiler circuit, recycling pump, energy efficiency

1. Nizameev B.M., Il'in V.K., Ryzhov D.A., Rusinov L.A. Povyshenie energeticheskoi effektivnosti kotel'noi putem optimal'nogo raspredeleniya nagruzki mezhdu kotloagregatami [Energy efficiency improvement of boiler station using optimum load distribution between boilers]. Izvestiya Sankt-Peterburgskogo gosudarstvennogo tekhnologicheskogo instituta. 2016. No. 34. Pp. 99–102. (rus)

2. Nekhoda S.B. Tekhnologicheskaya skhema energoeffektivnoi kotel'noi [Flow chart of energyefficient boiler station]. Santekhnika, otoplenie, konditsionirovanie. 2011. No. 2. Pp. 52–53. (rus)

3. Al'tshul' A.D. Kiselev P.G. Gidravlika i aerodinamika (osnovy mekhaniki zhidkosti) [Hydraulics and aerodynamics (basics of fluid mechanics)]. Moscow: Gosizdat Publ., 1965. 273 p. (rus).

4. Bogoslovskii V.N., Krupnov B.A., Skanavi A.N., et al. Vnutrennie sanitarno-tekhnicheskie ustroistva [Internal sanitary-engineering installations]. Moscow: Stroyizdat Publ., 1990. 344 p. (rus)

5. Suleimanov A.M. Chto vliyaet na okupaemost' mini-TETs? [What influences co-generation plant returns?]. Truboprovodnyi transport. 2016. Pp. 381–382. (rus)

6. Kozhukhova A.V. Ramazanov K.N. Primenenie ChPR dlya povysheniya energoeffektivnosti nasosnoi ustanovki [Energy-efficiency improvement of pumping unit]. Ufa: Simvol nauki Publ., 2016. No. 11-3. Pp. 95–97. (rus)

7. Janusz Bujak. Optimal control of energy losses in multi-boiler steam system. Energy. 2009 V. 34. No. 9. Pp. 1260–1270.

8. Amirov F.A., Agammedova S.A. Regulirovanie rezhima raboty tsentrobezhnogo nasosa izmeneniem chastoty vrashcheniya elektrodvigatelya s tsel'yu energosberezheniya [Operating conditions of centrifuge pump controlled by rotation frequency of electric engine]. Oborudovanie i tekhnologii dlya neftegazovogo kompleksa. 2012. No. 4. Pp. 34–35. (rus)

9. Quevedo J., Escobet T. Digital control: past, present and future of PID control. Proc. IFAC Workshop. 2000. 5–7 April, Terrassa, Spain.

10. Astrom K.J., Hagglund T. Advanced PID control. ISA (The Instrumentation, System, and Automation Society). 2006. 460 p.