Improving the energy efficiency of a 110 MW thermal power plant by low-cost modification of the cooling system
Само за регистроване кориснике
2018
Чланак у часопису (Објављена верзија)
Метаподаци
Приказ свих података о документуАпстракт
The electric power system of the Republic of Serbia relies mostly on lignite-fired thermal power plants, with 70% of the total electricity generation. Most of these plants are over 30 years old, and investment in their modernization is necessary. The energy efficiency of the 110 MW coal-fired power plant in which the condenser is cooled by the mechanical draught wet cooling towers system is analyzed in this paper. Attention is primarily devoted to operating conditions of the cold end of the plant, i.e. to the interrelationship of the condenser and cooling towers. Most important parameters that affect the operation of the cooling towers system are ambient air temperature and relative humidity, specific mass flow rate, and temperature of cooled water. With the existing cooling system, the overall energy efficiency of the plant is low, especially in the summer months, even less than 30%, due to adverse weather conditions. By upgrading existing cooling tower system by adaptation of two add...itional cooling tower cells, overall energy efficiency can be increased by 1.5%. The cooling tower system rehabilitation investments payback period is estimated to be less than one year. Static method for economic and financial assessment is used.
Кључне речи:
specific mass flow rate / power plant / investments / energy efficiency / Cooling towerИзвор:
Energy & Environment, 2018, 29, 2, 245-259Издавач:
- Sage Publications Ltd, London
DOI: 10.1177/0958305X17747428
ISSN: 0958-305X
WoS: 000429794500006
Scopus: 2-s2.0-85044002698
Колекције
Институција/група
Mašinski fakultetTY - JOUR AU - Jović, Milica M. AU - Laković, Mirjana S. AU - Banjac, Miloš PY - 2018 UR - https://machinery.mas.bg.ac.rs/handle/123456789/2777 AB - The electric power system of the Republic of Serbia relies mostly on lignite-fired thermal power plants, with 70% of the total electricity generation. Most of these plants are over 30 years old, and investment in their modernization is necessary. The energy efficiency of the 110 MW coal-fired power plant in which the condenser is cooled by the mechanical draught wet cooling towers system is analyzed in this paper. Attention is primarily devoted to operating conditions of the cold end of the plant, i.e. to the interrelationship of the condenser and cooling towers. Most important parameters that affect the operation of the cooling towers system are ambient air temperature and relative humidity, specific mass flow rate, and temperature of cooled water. With the existing cooling system, the overall energy efficiency of the plant is low, especially in the summer months, even less than 30%, due to adverse weather conditions. By upgrading existing cooling tower system by adaptation of two additional cooling tower cells, overall energy efficiency can be increased by 1.5%. The cooling tower system rehabilitation investments payback period is estimated to be less than one year. Static method for economic and financial assessment is used. PB - Sage Publications Ltd, London T2 - Energy & Environment T1 - Improving the energy efficiency of a 110 MW thermal power plant by low-cost modification of the cooling system EP - 259 IS - 2 SP - 245 VL - 29 DO - 10.1177/0958305X17747428 ER -
@article{ author = "Jović, Milica M. and Laković, Mirjana S. and Banjac, Miloš", year = "2018", abstract = "The electric power system of the Republic of Serbia relies mostly on lignite-fired thermal power plants, with 70% of the total electricity generation. Most of these plants are over 30 years old, and investment in their modernization is necessary. The energy efficiency of the 110 MW coal-fired power plant in which the condenser is cooled by the mechanical draught wet cooling towers system is analyzed in this paper. Attention is primarily devoted to operating conditions of the cold end of the plant, i.e. to the interrelationship of the condenser and cooling towers. Most important parameters that affect the operation of the cooling towers system are ambient air temperature and relative humidity, specific mass flow rate, and temperature of cooled water. With the existing cooling system, the overall energy efficiency of the plant is low, especially in the summer months, even less than 30%, due to adverse weather conditions. By upgrading existing cooling tower system by adaptation of two additional cooling tower cells, overall energy efficiency can be increased by 1.5%. The cooling tower system rehabilitation investments payback period is estimated to be less than one year. Static method for economic and financial assessment is used.", publisher = "Sage Publications Ltd, London", journal = "Energy & Environment", title = "Improving the energy efficiency of a 110 MW thermal power plant by low-cost modification of the cooling system", pages = "259-245", number = "2", volume = "29", doi = "10.1177/0958305X17747428" }
Jović, M. M., Laković, M. S.,& Banjac, M.. (2018). Improving the energy efficiency of a 110 MW thermal power plant by low-cost modification of the cooling system. in Energy & Environment Sage Publications Ltd, London., 29(2), 245-259. https://doi.org/10.1177/0958305X17747428
Jović MM, Laković MS, Banjac M. Improving the energy efficiency of a 110 MW thermal power plant by low-cost modification of the cooling system. in Energy & Environment. 2018;29(2):245-259. doi:10.1177/0958305X17747428 .
Jović, Milica M., Laković, Mirjana S., Banjac, Miloš, "Improving the energy efficiency of a 110 MW thermal power plant by low-cost modification of the cooling system" in Energy & Environment, 29, no. 2 (2018):245-259, https://doi.org/10.1177/0958305X17747428 . .