BUG‘-GAZ QURILMALARIDAGI TERMODINAMIK JARAYONLARNI  MODELLASHTIRISH BO‘YICHA ILMIY TADQIQOTLAR TAHLILI

Xujakulov Saydullo Mirzayevich

Maqolada kobinatsiyalashgan bug‘-gaz qurilmali issiqlik elektr

stansiyalarining ishlash jarayonida termodinamik tavsifnomalar, ish rejimlari o‘zgarishining

foydali ish koeffitsiyenti, energetik va eksergetik samaradorlik ko‘rsatkichlariga ta’sirini

modellashtirish masalalari bo‘yicha olib borilgan ilmiy izlanishlar natijalari tahlil qilingan hamda

ikki konturli qozon-utilizatoriga ega bug‘-gaz qurilmasida qo‘shimcha yoqilg‘i yoqish

jarayonlarining matematik modeli taklif etilgan.

Name of journalMUQOBIL ENERGETIKA
Number of edition03 (10) 2023
View count 55

Web Address

DOI

Date of creation in the UzSCI system 16-09-2024

Read count 55

Date of publication 26-09-2023

Main LanguageO'zbek

Pages71-77

Tags

bug‘-gazli sikl

bug‘-gaz qurilmali elektr stansiyalari

qozon-utilizatori

yuqori va past bosimli bug‘ konturlari

kondensat haydash nasosi

Ўзбек

Maqolada kobinatsiyalashgan bug‘-gaz qurilmali issiqlik elektr

stansiyalarining ishlash jarayonida termodinamik tavsifnomalar, ish rejimlari o‘zgarishining

foydali ish koeffitsiyenti, energetik va eksergetik samaradorlik ko‘rsatkichlariga ta’sirini

modellashtirish masalalari bo‘yicha olib borilgan ilmiy izlanishlar natijalari tahlil qilingan hamda

ikki konturli qozon-utilizatoriga ega bug‘-gaz qurilmasida qo‘shimcha yoqilg‘i yoqish

jarayonlarining matematik modeli taklif etilgan.

Tags

bug‘-gazli sikl

bug‘-gaz qurilmali elektr stansiyalari

qozon-utilizatori

yuqori va past bosimli bug‘ konturlari

kondensat haydash nasosi

№ Author name position Name of organisation

1 Xujakulov S.M. t.f.f.d., dotsent QarMII

№ Name of reference

1 Afshin Abdollahian, Mehran Ameri. Effect of supplementary firing on the performance of a combined cycle power plant. Applied Thermal Engineering 193 (2021) 117049. https://doi.org/10.1016/j.applthermaleng.2021.117049.

2 M. Ameri, P. Ahmadi, S. Khanmohammadi, Exergy analysis of a 420MW combined cycle power plant, Int. J. Energy Res. 32 (2) (2008) 175–183.

3 D. Ghorbanzadeh, B. Ghashami, S. Masoudi, S.H. Khanmohammadi, Exergy Analysis of NekaIran Heat Recovery Steam Generator at Different Ambient Temperatures, in: Proc. of the 3rd IASME/WSEAS Int. Conf. on Energy, Environment, Ecosystems and Sustainable Development, AgiosNikolaos, Greece, July (24–26) 2007.

4 Z. Aminov, N. Nakagoshi, T.D. Xuan, O. Higashi, K. Alikulov, Evaluation of the energy efficiency of combined cycle gas turbine. Casestudy of Tashkent thermal power plant, Uzbekistan, Appl. Therm. Eng. 103 (2016) 501–509.

5 F. Cziesla, G. Tsatsaronis, Z. Gao, Avoidable thermodynamic inefficiencies and costs in an externally fired combined cycle power plant, Energy 31 (10-11) (2006) 1472–1489.

6 X. Shi, B. Agnew, D. Che, J. Gao, Performance enhancement of conventional combined cycle power plant by inlet air cooling, inter-cooling and LNG cold energy utilization, Appl. Therm. Eng. 30 (2010) 2003-2010.

7 F. Alobaid, Start-up improvement of a supplementary-fired large combined-cycle power plant, J. Process Control 64 (2018) 71–88.

8 P.J. Dechamps, N. Pirard, Ph Mathieu, Part-load operation of combined cycle plants with and without supplementary firing, J. Eng. Gas Turb. Power 117/475 (1995).

9 B.V. Reddy, K. Mohamed, Exergy analysis of a natural gas fired combined cycle power generation unit, Int. J. Energy Res. 4 (2) (2007) 180, https://doi.org/10.1504/IJEX.2007.012065.

10 A. Almutairi, P. Pilidis, N. Al-Mutawa, Energetic and exergetic analysis of combined cycle power plant: Part-1 operation and performance, Energies 8 (12) (2015) 14118–14135.

11 H. Sreedharan, J.R. Reshma, J.K. Jacob, V.V. Sivakumar, Energy and exergy analysis on 350MW combined cycle power plant, Eur. J. Technol. Des. 12 (2016) 2.

12 M.A. Javadi, H. Ghomashi, Thermodynamics analysis and optimization of Abadan combined cycle power plant, Indian J. Sci. Technol. 9 (2016) 7.

13 I.H. Aljundi, Aljundi, Energy and exergy analysis of a steam power plant in Jordan, Appl. Therm. Eng. 29 (2-3) (2009) 324–328.

14 O. Akbari, A. Marzban, G. Ahmadi, GholamrezaAhmadi, Evaluation of supply boiler repowering of an existing natural gas-fired steam power plant, Appl. Therm. Eng. 124 (2017) 897–910.

15 K. Thamir, A. Ibrahim, M.K. Mohammed, I. Omar, N.A. Awad, F. Abdalla, N. M. Basrawi, G. Marwah, R.M. Najafi, A comprehensive review on the exergy analysis of combined cycle power plants, Renew. Sustain. Energy Rev. 90 (2018) 835–850.

16 K.K. Dubey, R.S. Mishra, Energy-exergy analysis of combined reheating regenerative Rankine cycle using entropy generation principle, Int. J. Recent Technol. Eng. 8 (September (3)) (2019) 277–3878.

17 T. DatHoanga, D.K. Pawluskiewiczb, The efficiency analysis of different combined cycle power plants based on the impact of selected parameters, Manuscript (2016).

18 M. Ameri, P. Ahmadi, The study of ambient temperature effects on exergy losses of a heat recovery steam generator, in: International Conference on Power Engineering, October (23–27) 2007, Hangzhou, China.

19 V. Rohani, M. Ahmadi, Using double pressure heat recovery steam generator equipped with duct burner for full repowering a steam power plant and its analysis by exergy method, Int. J. Mater. Mech. Manuf. 2 (November) (2014) 4.

20 R. Kehlhofer, Combined-Cycle Gas & Steam Turbine Power Plants. PennWell Books, 2009.

21 A. Bejan, Advanced Engineering Thermodynamics, third ed., John Wiley & Sons, Inc., 2006 (All rights reserved).

Waiting

№	Name of reference
1	Afshin Abdollahian, Mehran Ameri. Effect of supplementary firing on the performance of a combined cycle power plant. Applied Thermal Engineering 193 (2021) 117049. https://doi.org/10.1016/j.applthermaleng.2021.117049.
2	M. Ameri, P. Ahmadi, S. Khanmohammadi, Exergy analysis of a 420MW combined cycle power plant, Int. J. Energy Res. 32 (2) (2008) 175–183.
3	D. Ghorbanzadeh, B. Ghashami, S. Masoudi, S.H. Khanmohammadi, Exergy Analysis of NekaIran Heat Recovery Steam Generator at Different Ambient Temperatures, in: Proc. of the 3rd IASME/WSEAS Int. Conf. on Energy, Environment, Ecosystems and Sustainable Development, AgiosNikolaos, Greece, July (24–26) 2007.
4	Z. Aminov, N. Nakagoshi, T.D. Xuan, O. Higashi, K. Alikulov, Evaluation of the energy efficiency of combined cycle gas turbine. Casestudy of Tashkent thermal power plant, Uzbekistan, Appl. Therm. Eng. 103 (2016) 501–509.
5	F. Cziesla, G. Tsatsaronis, Z. Gao, Avoidable thermodynamic inefficiencies and costs in an externally fired combined cycle power plant, Energy 31 (10-11) (2006) 1472–1489.
6	X. Shi, B. Agnew, D. Che, J. Gao, Performance enhancement of conventional combined cycle power plant by inlet air cooling, inter-cooling and LNG cold energy utilization, Appl. Therm. Eng. 30 (2010) 2003-2010.
7	F. Alobaid, Start-up improvement of a supplementary-fired large combined-cycle power plant, J. Process Control 64 (2018) 71–88.
8	P.J. Dechamps, N. Pirard, Ph Mathieu, Part-load operation of combined cycle plants with and without supplementary firing, J. Eng. Gas Turb. Power 117/475 (1995).
9	B.V. Reddy, K. Mohamed, Exergy analysis of a natural gas fired combined cycle power generation unit, Int. J. Energy Res. 4 (2) (2007) 180, https://doi.org/10.1504/IJEX.2007.012065.
10	A. Almutairi, P. Pilidis, N. Al-Mutawa, Energetic and exergetic analysis of combined cycle power plant: Part-1 operation and performance, Energies 8 (12) (2015) 14118–14135.
11	H. Sreedharan, J.R. Reshma, J.K. Jacob, V.V. Sivakumar, Energy and exergy analysis on 350MW combined cycle power plant, Eur. J. Technol. Des. 12 (2016) 2.
12	M.A. Javadi, H. Ghomashi, Thermodynamics analysis and optimization of Abadan combined cycle power plant, Indian J. Sci. Technol. 9 (2016) 7.
13	I.H. Aljundi, Aljundi, Energy and exergy analysis of a steam power plant in Jordan, Appl. Therm. Eng. 29 (2-3) (2009) 324–328.
14	O. Akbari, A. Marzban, G. Ahmadi, GholamrezaAhmadi, Evaluation of supply boiler repowering of an existing natural gas-fired steam power plant, Appl. Therm. Eng. 124 (2017) 897–910.
15	K. Thamir, A. Ibrahim, M.K. Mohammed, I. Omar, N.A. Awad, F. Abdalla, N. M. Basrawi, G. Marwah, R.M. Najafi, A comprehensive review on the exergy analysis of combined cycle power plants, Renew. Sustain. Energy Rev. 90 (2018) 835–850.
16	K.K. Dubey, R.S. Mishra, Energy-exergy analysis of combined reheating regenerative Rankine cycle using entropy generation principle, Int. J. Recent Technol. Eng. 8 (September (3)) (2019) 277–3878.
17	T. DatHoanga, D.K. Pawluskiewiczb, The efficiency analysis of different combined cycle power plants based on the impact of selected parameters, Manuscript (2016).
18	M. Ameri, P. Ahmadi, The study of ambient temperature effects on exergy losses of a heat recovery steam generator, in: International Conference on Power Engineering, October (23–27) 2007, Hangzhou, China.
19	V. Rohani, M. Ahmadi, Using double pressure heat recovery steam generator equipped with duct burner for full repowering a steam power plant and its analysis by exergy method, Int. J. Mater. Mech. Manuf. 2 (November) (2014) 4.
20	R. Kehlhofer, Combined-Cycle Gas & Steam Turbine Power Plants. PennWell Books, 2009.
21	A. Bejan, Advanced Engineering Thermodynamics, third ed., John Wiley & Sons, Inc., 2006 (All rights reserved).