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Автор: Grafiati
Опубліковано: 30 травня 2022
Оновлено: 31 травня 2022

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1

Kumar, Arun V. Rejus, and A. Sagai Francis Britto. "Design and Fabrication of Gasification Combined Cycle in Power Plant." International Journal of Psychosocial Rehabilitation 23, no. 4 (July 20, 2019): 254–64. http://dx.doi.org/10.37200/ijpr/v23i4/pr190184.

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2

Uzunoglu, Timur, and Hasan Ozdemir. "Combined Cycle Power Plant, Ankara, Turkey." Structural Engineering International 14, no. 4 (November 2004): 303–5. http://dx.doi.org/10.2749/101686604777963658.

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3

Mitsuhashi, Shunji, Shigekazu Uji, Yoshiaki Aoki, and Kouichi Chiba. "Gas Turbine Combined Refuse Power Plant." Journal of the Society of Mechanical Engineers 102, no. 973 (1999): 743–45. http://dx.doi.org/10.1299/jsmemag.102.973_743.

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4

Wu, Chih. "Maximum obtainable power of a carnot combined power plant." Heat Recovery Systems and CHP 15, no. 4 (May 1995): 351–55. http://dx.doi.org/10.1016/0890-4332(95)90004-7.

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5

KOSIYUK, MYKOLA, ARTEM KOSIIUK, and VITALY KRAVCHUK. "COMBINED POWER PLANT OF A MOTOR VEHICLE." HERALD OF KHMELNYTSKYI NATIONAL UNIVERSITY 299, no. 4 (October 2021): 84–88. http://dx.doi.org/10.31891/2307-5732-2021-299-4-84-88.

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Анотація:
Currently, the most promising areas of development of motor transport are an increase of the horsepower characteristic of their power plants as well as increase of fuel efficiency, and reduction of the toxicity level of exhaust fumes. An internal combustion engine as a power unit of the car in a number of operation modes (supplemental motion, small work load, idling, etc.) works extremely inefficiently and contains the high concentration of harmful components in the exhaust fumes. Additionally, in a context of growing shortage of carbohydrate fuels and increase in their value, the problem of the fuel-burn improvement is especially acute. To improve the environmental compatibility and efficiency of power plants of the vehicles, combined cycle power plants are used. One of the most important problems that the machine construction faces is the creation of environmentally friendly and economical power plants. A hybrid power plant, which contains several power units operating on different physical principles, is proposed by the authors. The main power unit uses the energy of liquid or gaseous fuel in the mode of an internal combustion engine; the auxiliary power unit which is made as a reverse volumetrical driving machine with swinging motion of the work tools (forcers or blades), uses air power which comes from a pneumocylinder through a cooler and / or pneumatic air tank. The auxiliary power unit is equipped with a reversible invertor of the driving direction, made on the basis of a spherical slider-crank mechanism. This insures the operation of the auxiliary power unit in the mode of a pneumatic motor or compressor in accordance with the algorithm generated by the electronic control unit of the combined power plant of the vehicle. To utilize the heat energy of the exhaust fumes of the main power unit, the combined power plant is additionally equipped with a Stirling engine or steam generation module and a steam engine; in order to break energy recuperation of the vehicle it is additionally equipped with a hydraulic or electrodrive. Naturally, when choosing the specific forms of application of combined cycle power plants, any combinations of auxiliary power units are possible. They can be supplemented and / or specified based on the knowledge of specialists. Combined cycle power plants are technically complete solution. Their industrial applicability is obvious and is substantiated by experiments. Nowadays, the creation of a combined cycle power plants of a vehicle, which are a combination of several engines operating on different physical principles is the task of great economic importance. Combined power plants this allows to reduce fuel consumption per 100 km significantly, increase energy potential, horsepower characteristic and improve the environmental performance of the vehicle. The work is planned to be continued in the direction of optimization synthesis of auxiliary power units that work on different physical principles.
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6

Wijaya, Fauzi Rachman, and Sudarso Kaderi Wiryono. "Operational Risk Management Towards Combined Cycle Power Plant in Tanjung Priok Power Plant." Advanced Science Letters 23, no. 8 (August 1, 2017): 7295–97. http://dx.doi.org/10.1166/asl.2017.9355.

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7

Kribus, A., R. Zaibel, D. Carey, A. Segal, and J. Karni. "A solar-driven combined cycle power plant." Solar Energy 62, no. 2 (February 1998): 121–29. http://dx.doi.org/10.1016/s0038-092x(97)00107-2.

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8

Dev, Nikhil, and Rajesh Attri. "Performance analysis of combined cycle power plant." Frontiers in Energy 9, no. 4 (August 24, 2015): 371–86. http://dx.doi.org/10.1007/s11708-015-0371-9.

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9

Kotowicz, Janusz, Marcin Job, and Mateusz Brzęczek. "Maximisation of Combined Cycle Power Plant Efficiency." Acta Energetica 4, no. 25 (December 2, 2015): 42–48. http://dx.doi.org/10.12736/issn.2300-3022.2015404.

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10

Bechtold, K., and M. Pokojski. "Berlin's new powerhouse [combined cycle power plant]." IEEE Spectrum 35, no. 3 (March 1998): 52–57. http://dx.doi.org/10.1109/mspec.1998.663758.

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11

OVCHINNIKOV, E. V., R. S. FEDOTKIN, S. Yu UYUTOV, and V. A. KRYUCHKOV. "Combined power plant with improved environmental performance." Iindustrial Ecology, no. 2 (2021): 44–47. http://dx.doi.org/10.52190/2073-2589_2021_2_44.

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12

Karimi, Mehdi, Magne Hillestad, and Hallvard F. Svendsen. "Natural Gas Combined Cycle Power Plant Integrated to Capture Plant." Energy & Fuels 26, no. 3 (February 9, 2012): 1805–13. http://dx.doi.org/10.1021/ef201921s.

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13

Raval, Tejas N., and R. N. Patel. "Optimization of Auxiliary Power Consumption of Combined Cycle Power Plant." Procedia Engineering 51 (2013): 751–57. http://dx.doi.org/10.1016/j.proeng.2013.01.107.

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14

Xie, Chun Ling, and Shu Ying Li. "Design of Multi-Module Experiment-Rig of Ship Electrical Propulsion Prime Mover." Key Engineering Materials 419-420 (October 2009): 233–36. http://dx.doi.org/10.4028/www.scientific.net/kem.419-420.233.

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Анотація:
Diesel engine power plant, gas turbine power plant and steam turbine power plant are in common use in ship main propulsion power. These power plants have each advantage and disadvantage at mass, size, most high-power, economic ability, and maneuverability. But any single power is difficult to meet the requirement of improving the ships’ tactical performance, speed and maneuverability. In developing history of ship propulsion system, in order to solve the contradiction between full speed high-power and cruise economic ability, combined power plant form can change the performance of simple plant, which collected the advantage of all kinds of power plants[1]. Here combined power plant form is two or more same or not the same type engine combine used or trade off. The combined power plant can not only supply total power for ships when cruising, but also be more economical. So this plant is used widely. This paper, designs a multi-module experiment-rig and introduces its composition, working principle and disposition scheme, and carried out the dynamic characteristic experiment of the CODAG power plant.
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15

Amiralipour, M., and R. Kouhikamali. "Guilan combined power plant in Iran: As case study for feasibility investigation of converting the combined power plant into water and power unit." Energy 201 (June 2020): 117656. http://dx.doi.org/10.1016/j.energy.2020.117656.

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16

Kirpichnikova, I. M., and S. A. Chetoshnikov. "MODELING OF COMBINED WIND AND SOLAR POWER PLANT." Alternative Energy and Ecology (ISJAEE), no. 7-8 (June 2, 2016): 25–31. http://dx.doi.org/10.15518/isjaee.2016.07-08.025-031.

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17

Abd–El-Halim, M., and W. M. El-Maghlany. "THERMODYNAMIC ANALYSIS FOR COMBINED BRAYTON / RANKINE POWER PLANT." JES. Journal of Engineering Sciences 38, no. 4 (July 1, 2010): 961–77. http://dx.doi.org/10.21608/jesaun.2010.125555.

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18

Nakamoto, M., K. Shimizu, and H. Fukuda. "Multivariable Control for a Combined Cycle Power Plant." IFAC Proceedings Volumes 26, no. 2 (July 1993): 653–58. http://dx.doi.org/10.1016/s1474-6670(17)48550-8.

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19

Seyedan, B., P. L. Dhar, R. R. Gaur, and G. S. Bindra. "Computer simulation of a combined cycle power plant." Heat Recovery Systems and CHP 15, no. 7 (October 1995): 619–30. http://dx.doi.org/10.1016/0890-4332(95)90042-x.

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20

Price, M. E., and M. D. Chilton. "The Fort Dunlop Combined Heat and Power Plant." Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power Engineering 203, no. 3 (August 1989): 171–79. http://dx.doi.org/10.1243/pime_proc_1989_203_024_02.

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Анотація:
The paper describes the combination of a large medium-speed diesel engine with a conventional chain grate boiler at the Fort Dunlop combined heat and power (CHP) station. The CHP station is situated in Birmingham, England, and is owned and operated by the Midlands Electricity Board (MEB). A detailed description of the plant is given including the combination of both the water and gas systems.
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21

Nakamoto, M., K. Shimizu, and H. Fukuda. "Multivariable control for a combined cycle power plant." Control Engineering Practice 3, no. 4 (April 1995): 465–70. http://dx.doi.org/10.1016/0967-0661(95)00018-p.

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22

Tanaka, S., T. Sakai, H. Hirayama, and H. Takaoka. "Distributed control system for combined cycle power plant." IFAC Proceedings Volumes 18, no. 1 (May 1985): 9–19. http://dx.doi.org/10.1016/b978-0-08-031664-2.50008-5.

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23

Istvan Faz, Andras, and Eva V. Nagy. "Reliability Modelling of Combined Heat and Power Generating Power Plant Units." International Journal of Electrical and Power Engineering 4, no. 2 (February 1, 2010): 160–63. http://dx.doi.org/10.3923/ijepe.2010.160.163.

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24

Horlock, J. H. "Combined Power Plants—Past, Present, and Future." Journal of Engineering for Gas Turbines and Power 117, no. 4 (October 1, 1995): 608–16. http://dx.doi.org/10.1115/1.2815448.

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Анотація:
The early history of combined power plants is described, together with the birth of the CCGT plant (the combined “cycle” gas turbine). Sustained CCGT development in the 1970s and 1980s, based on sound thermodynamic considerations, is outlined. Finally more recent developments and future prospects for the combined gas turbine/steam turbine combined plant are discussed.
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25

Sohn, Geun, Ju-Yeol Ryu, Hye-Min Park, and Sung-Ho Park. "Process Analysis on Coal Fired Oxy-fuel Combustion Power Plant Combined with Power-to-Gas Plant." Korean Society of Thermal Environmental Engineers 16, no. 1 (July 31, 2021): 22–33. http://dx.doi.org/10.55079/jtee.2021.16.1.22.

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26

CHIANG, Hsiao-Wei, and Pai-Yi WANG. "Power Augmentation Study of a Combined Cycle Power Plant Using Inlet Fogging." JSME International Journal Series B 49, no. 4 (2006): 1272–81. http://dx.doi.org/10.1299/jsmeb.49.1272.

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27

Alus, Muammer, and Milan Petrovic. "Optimization of the triple-pressure combined cycle power plant." Thermal Science 16, no. 3 (2012): 901–14. http://dx.doi.org/10.2298/tsci120517137a.

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Анотація:
The aim of this work was to develop a new system for optimization of parameters for combined cycle power plants (CCGTs) with triple-pressure heat recovery steam generator (HRSG). Thermodynamic and thermoeconomic optimizations were carried out. The objective of the thermodynamic optimization is to enhance the efficiency of the CCGTs and to maximize the power production in the steam cycle (steam turbine gross power). Improvement of the efficiency of the CCGT plants is achieved through optimization of the operating parameters: temperature difference between the gas and steam (pinch point P.P.) and the steam pressure in the HRSG. The objective of the thermoeconomic optimization is to minimize the production costs per unit of the generated electricity. Defining the optimal P.P. was the first step in the optimization procedure. Then, through the developed optimization process, other optimal operating parameters (steam pressure and condenser pressure) were identified. The developed system was demonstrated for the case of a 282 MW CCGT power plant with a typical design for commercial combined cycle power plants. The optimized combined cycle was compared with the regular CCGT plant.
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28

Xiao, Li Chun, and Zhi Jiang Ding. "Coal Gas Dehydration Equipment in Combined Cycle Power Plant." Applied Mechanics and Materials 220-223 (November 2012): 554–58. http://dx.doi.org/10.4028/www.scientific.net/amm.220-223.554.

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Анотація:
To reduce the moisture content of coal gas in combined cycle power plant, a new type dehydration equipment is introduced. The curved plate dehydration equipment is composed of many pieces of stainless plate which has some collection hooks at every corner. Meanwhile, a new method on measuring moisture in gas by using superfine fibreglass is introduced.The gas-water separation efficiency was calculated by the difference of moisture content before and after the curved plate dehydration equipment. The dehydration efficiency of curved plate in combined cycle power plant system was tested under different operating load, the results show that gas velocity and gas/liquid ratio have a great influence on the coal gas dehydration efficiency. If the washing water flow rate and pressure are changed, the efficiency will change at the same time. The moisture content is low when the spraying nozle works at a high water pressure. The operation water pressure and working voltage of electrostatic precipitator have been proposed by testing and analysis. It will have great advantage to the safe operation of turbine.
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29

Leis, D. M., M. J. Boss, and M. P. Melsert. "Medway: A High-Efficiency Combined Cycle Power Plant Design." Journal of Engineering for Gas Turbines and Power 117, no. 4 (October 1, 1995): 713–23. http://dx.doi.org/10.1115/1.2815457.

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Анотація:
The Medway Project is a 660 MW combined cycle power plant, which employs two of the world’s largest advanced technology MS9001FA combustion turbine generators and an advanced design reheat steam turbine generator in a power plant system designed for high reliability and efficiency. This paper discusses the power plant system optimization and design, including thermodynamic cycle selection, equipment arrangement, and system operation. The design of the MS9001FA combustion turbine generator and the steam turbine generator, including tailoring for the specific application conditions, is discussed.
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30

Samarakou, M. T., and J. C. Hennet. "Simulation of a combined wind and solar power plant." International Journal of Energy Research 10, no. 1 (January 1986): 1–10. http://dx.doi.org/10.1002/er.4440100102.

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31

Hennet, J. C., and M. T. Samarakou. "Optimization of a combined wind and solar power plant." International Journal of Energy Research 10, no. 2 (April 1986): 181–88. http://dx.doi.org/10.1002/er.4440100208.

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32

Polyzakis, A. L., C. Koroneos, and G. Xydis. "Optimum gas turbine cycle for combined cycle power plant." Energy Conversion and Management 49, no. 4 (April 2008): 551–63. http://dx.doi.org/10.1016/j.enconman.2007.08.002.

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33

Williams, J. M., A. J. Griffiths, and I. P. Knight. "Combined heat and power: Sizing plant for new hospitals." Building Services Engineering Research and Technology 17, no. 3 (August 1996): 147–52. http://dx.doi.org/10.1177/014362449601700308.

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34

Kirchsteiger, C., L. Balling, and J. Teichmann. "Probabilistic outage analysis of a combined-cycle power plant." Power Engineering Journal 9, no. 3 (June 1, 1995): 137–41. http://dx.doi.org/10.1049/pe:19950307.

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35

Dev, Nikhil, and Rajesh Attri. "Comparative Study of Different Combined Cycle Power Plant Schemes." International Journal of Recent advances in Mechanical Engineering 4, no. 4 (November 30, 2015): 67–75. http://dx.doi.org/10.14810/ijmech.2015.4406.

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36

Madani, Anas A. "Analysis of a new combined desalination-power generation plant." Desalination 105, no. 3 (July 1996): 199–205. http://dx.doi.org/10.1016/0011-9164(96)00077-x.

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37

Sha, Sha, and Markku Hurme. "Emergy evaluation of combined heat and power plant processes." Applied Thermal Engineering 43 (October 2012): 67–74. http://dx.doi.org/10.1016/j.applthermaleng.2011.11.063.

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38

Yu, Mengjing, Suzann Muy, Farah Quader, Abigail Bonifacio, Roshni Varghese, Elisha Clerigo, Maya Biery, Maggie Mei, Dustin Cutler, and Julie M. Schoenung. "Combined Hydrogen, Heat and Power (CHHP) pilot plant design." International Journal of Hydrogen Energy 38, no. 12 (April 2013): 4881–88. http://dx.doi.org/10.1016/j.ijhydene.2013.02.006.

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39

Najjar, Yousef S. H., and Yaman Mohammad Ali Manaserh. "Aligning Combined Cycle Power Plant Performance with Field Measurements." Arabian Journal for Science and Engineering 44, no. 2 (November 27, 2018): 1657–69. http://dx.doi.org/10.1007/s13369-018-3615-2.

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40

Dev, Nikhil, Samsher, S. S. Kachhwaha, and Rajesh Attri. "GTA modeling of combined cycle power plant efficiency analysis." Ain Shams Engineering Journal 6, no. 1 (March 2015): 217–37. http://dx.doi.org/10.1016/j.asej.2014.08.002.

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41

Snow, D. J. "Noise control in power plant." Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy 211, no. 1 (February 1, 1997): 73–93. http://dx.doi.org/10.1243/0957650971537015.

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Анотація:
During the last decade the shape of the UK non-nuclear electricity generation industry has changed fundamentally from a stable monopoly providing power primarily from large coal-fired units to a rapidly developing competitive industry with a wide range of plant types. The removal of the restrictions on burning natural gas in power stations and the introduction of flue gas desulphurization on some of the traditional plants has highlighted the reduced cost and lower emissions of gas-powered generation, leading to a major increase in the use of this fuel in more efficient combined cycle gas turbine (CCGT) plant. Outside the United Kingdom, the economics and politics of fuel supply and electricity production may be different, and both traditional plant and new CCGT projects are being constructed in overseas markets by UK utilities, often in partnership arrangements with other companies. In parallel with these developments there is significant new effort expended on the development of combined heat and power (CHP) plant and renewable energy sources, especially wind power. Although relatively small in MW terms, the latter plant type presents significant and particular noise control requirements. On the horizon, new coal plant using coal gasification or fluidized bed technologies may be anticipated. At the same time as these major changes in plant selection are occurring there are simultaneous developments in the methods of environmental noise assessment. In this article the use of noise control within the electricity generation industry is reviewed and the influence of the changing trends in plant and environmental noise assessment are discussed.
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42

Naidu, Rushavya, and Wim Fuls. "The off-design modelling of a combined-cycle power plant." MATEC Web of Conferences 347 (2021): 00003. http://dx.doi.org/10.1051/matecconf/202134700003.

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Анотація:
The objective of this project was to develop a model of a combined-cycle power plant in Flownex which can be solved in off-design conditions in order to compare it to plant data. The verification of this model will show that Flownex can be used to effectively and efficiently model a combined-cycle power plant. The process of development of the final Flownex model was achieved using various additional software. Initially, an analytical model was developed in Mathcad (software used for engineering calculations). Thereafter, a model was built in Virtual Plant, a thermodynamic modelling software for assessing plant performance. Finally, the Flownex model was designed. For the single, double, and triple pressure combined-cycle power plant systems, the analytical, Virtual Plant and Flownex models were compared. The results of all the models agreed closely with one another. The triple-pressure design and off-design Virtual Plant and Flownex models were also compared to plant data and it was concluded that Flownex was successful in modelling the design and offdesign conditions of a combined-cycle power plant.
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43

Korakianitis, T., J. Grantstrom, P. Wassingbo, and Aristide F. Massardo. "Parametric Performance of Combined-Cogeneration Power Plants With Various Power and Efficiency Enhancements." Journal of Engineering for Gas Turbines and Power 127, no. 1 (January 1, 2005): 65–72. http://dx.doi.org/10.1115/1.1808427.

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Анотація:
The design-point performance characteristics of a wide variety of combined-cogeneration power plants, with different amounts of supplementary firing (or no supplementary firing), different amounts of steam injection (or no steam injection), different amounts of exhaust gas condensation, etc., without limiting these parameters to present-day limits are investigated. A representative power plant with appropriate components for these plant enhancements is developed. A computer program is used to evaluate the performance of various power plants using standard inputs for component efficiencies, and the design-point performance of these plants is computed. The results are presented as thermal efficiency, specific power, effectiveness, and specific rate of energy in district heating. The performance of the simple-cycle gas turbine dominates the overall plant performance; the plant efficiency and power are mainly determined by turbine inlet temperature and compressor pressure ratio; increasing amounts of steam injection in the gas turbine increases the efficiency and power; increasing amounts of supplementary firing decreases the efficiency but increases the power; with sufficient amounts of supplementary firing and steam injection the exhaust-gas condensate is sufficient to make up for water lost in steam injection; and the steam-turbine power is a fraction (0.1 to 0.5) of the gas-turbine power output. Regions of “optimum” parameters for the power plant based on design-point power, hot-water demand, and efficiency are shown. A method for fuel-cost allocation between electricity and hot water is recommended.
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44

Chen, Li Jun, Li Jun Mi, Chao Xu, and Shan Rang Yang. "Economic Analysis on the Combined Power/ Refrigerating Cycle for Power Plant Air Cooling System." Advanced Materials Research 433-440 (January 2012): 7436–42. http://dx.doi.org/10.4028/www.scientific.net/amr.433-440.7436.

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Анотація:
At present, the development of power industry is facing the pressure of energy saving and emission reduction. This paper reviewed briefly the strategy for development in optimizing power cycle and improving comprehensive utilization of heat energy. A economic analysis was made to the combined power cycle/refrigerating cycle air cooling system (hereinafter called ‘combined cycle air cooling system’ or ‘CCACS’) which presented previously and estimated its contribution to energy saving and emission reduction in this paper. An analog computation example shows that the combined cycle air cooling system based on the compression refrigeration is feasible and effective. Finally this paper pointed out that the air-cooling system is facing the re-selection under the new situation, the indirect air-cooling system will be of importance to the development, and the combined cycle air cooling system will become a kind of new options.
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45

Stachel, K., H. U. Frutschi, and H. Haselbacher. "Thermodynamic Heating With Various Types of Cogeneration Plants and Heat Pumps." Journal of Engineering for Gas Turbines and Power 117, no. 2 (April 1, 1995): 251–58. http://dx.doi.org/10.1115/1.2814088.

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The thermodynamic heating method combines cogeneration power plants and heat pumps in order to maximize the heating energy that can be derived from a given amount of fuel. In doing this, unnecessary waste of primary energy and environmental damage can be prevented. In this paper, four cogeneration systems—combined cycle plants, steam and gas turbine power plants, and gas engines—and heat pump systems are investigated and compared with respect to fuel utilization for realistic site conditions. It is shown that the combined cycle cogeneration power plant is superior to the other three types of power plant.
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46

Korolyov, O. V., O. V. Derevyanko, and O. Yu Pogosov. "Twin-rotor combined turbine drive with a transmission for the nuclear power plant equipment emergency water supply system." Odes’kyi Politechnichnyi Universytet. Pratsi, no. 2 (December 15, 2014): 88–91. http://dx.doi.org/10.15276/opu.2.44.2014.17.

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47

Voronin, S. G., A. I. Sogrin, Ye S. Shvalev, and V. I. Kislitsin. "A bulldozer hybrid power plant generator." Traktory i sel hozmashiny 79, no. 2 (February 15, 2012): 8–11. http://dx.doi.org/10.17816/0321-4443-69326.

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A diesel-engine generator for the hybrid power plant of bulldozer is developed. Hybrid transmission applicability in a vehicle of given class is shown. Some optional versions of realization of the main load-bearing element of electric power plant of hybrid bulldozer-generator are analyzed. Requirements for a hybrid vehicle generator are formulated. A multi-polar generator with combined excitation combination is suggested allowing to realize the propulsion system as an integrated module. An example of practical realization of the developed generator is shown.
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48

Yang, Dong, Gui Hua Deng, Zai Qiang Lou, and Hui Hua Yang. "Analysis of Combined Water Treatment in Large-Scale Power Plant." Advanced Materials Research 518-523 (May 2012): 1853–58. http://dx.doi.org/10.4028/www.scientific.net/amr.518-523.1853.

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compared with other boiler water treatment, combined water treatment (CWT) has the great advantage on anticorrosion, anti-scale, the guarantee of unit security economy operation, so it is used widely. This paper introduced the thermodynamics theory and dynamics influence factor of CWT, and introduced in detail about the influence of the water pH value, the oxygen concentration and the conductivity. It summarized the merit of compound oxygen treatment , and pointed out the matters needing attention using CWT.
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49

Fukushima, Izumi, Shirou Hino, Masashi Nakamoto, and Shigeru Takamiya. "Improved Combined Cycle Power Plant Operation Design using Optimized Method." IEEJ Transactions on Power and Energy 111, no. 10 (1991): 1057–64. http://dx.doi.org/10.1541/ieejpes1990.111.10_1057.

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50

Elhaj, Mohamed A., Moustfa M. Mahgub, and Kassim K. Matrawy. "Thermal Analysis of Combined Cycle Power Plant with Desalination Unit." Advanced Materials Research 658 (January 2013): 430–36. http://dx.doi.org/10.4028/www.scientific.net/amr.658.430.

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Анотація:
The aim of the present study is to utilize the excess energy of combined cycle power plant (CCPP) in desalination unit in cases of low electrical demand loading conditions. The main components of proposed (CCPP) included the gas turbine and steam turbine units. Gas turbine produces the major part of the developed power, while the steam turbine produces the remaining one in case of peak loading conditions. For the case of base load, the excess energy of steam turbine is used in desalination unit.
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