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Journal articles on the topic 'Steam turbine generator'

Author: Grafiati
Published: 3 June 2025
Last updated: 31 July 2025

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1

Muhamad Rizky Septianto, Massus Subekti, and Daryanto. "RANCANG BANGUN TURBIN UAP PADA MAKET PEMBANGKIT LISTRIK TENAGA UAP." Journal of Electrical Vocational Education and Technology 2, no. 2 (2020): 37–40. http://dx.doi.org/10.21009/jevet.0022.08.

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The purpose of this study was to produce a prototype steam turbine at maket power plant steam generator
 torque that can play. The research method used in this research is descriptive analysis by type of engineering. Steam turbine is a Primemover that converts potential energy into mechanical energy in the form of rotation of the turbine shaft. Steam turbine constructed dimensions turbine type used single stage impulse turbine, turbine disc diameter of 33mm, the amount of movement of the blade 30 pieces, the distance between the blade
 14,6mm, radious 2,63mm blade, the type of nozzle
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2

Dinda Annisa Yumna and Dinda Annisa Yumna. "STUDI ANALISIS EFISIENSI STEAM TURBINE GENERATOR PADA BAGIAN ASAM SULFAT DAN UTILITAS DEPARTEMEN PRODUKSI IIIB PT PETROKIMIA GRESIK." DISTILAT: Jurnal Teknologi Separasi 10, no. 1 (2024): 33–40. http://dx.doi.org/10.33795/distilat.v10i1.4901.

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Sejumlah energi penggerak peralatan proses sangat diperlukan dalam proses produksi di seluruh pabrik yang ada pada PT Petrokimia Gresik. Departemen Produksi IIIB memiliki unit utilitas asam sulfat, yang salah satunya adalah unit power generator (turbine generator). Dimana salah satu unit power generator yaitu steam turbine (TP-6101) dengan kapasitas 17,5 MW. Kondisi saat ini pada pembangkit listrik pada Unit Utilitas Asam Sulfat PT Petrokimia Gresik yang telah beroperasi selama bertahun-tahun dan telah mengalami banyak permasalahan yang dapat menurunkan efisiensi pada Turbine Generator. Dari l
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3

Sudadiyo, Sri, and Jupiter Sitorus Pane. "DESAIN AWAL TURBIN UAP TIPE AKSIAL UNTUK KONSEP RGTT30 BERPENDINGIN HELIUM." JURNAL TEKNOLOGI REAKTOR NUKLIR TRI DASA MEGA 18, no. 2 (2016): 65. http://dx.doi.org/10.17146/tdm.2016.18.2.2319.

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ABSTRAK DESAIN AWAL TURBIN UAP TIPE AKSIAL UNTUK KONSEP RGTT30 BERPENDINGIN HELIUM. Konsep reaktor daya nuklir yang dikembangkan merupakan jenis reaktor berpendingin gas dengan temperatur tinggi (RGTT). Gas yang digunakan untuk mendinginkan teras RGTT adalah helium. Konsep RGTT ini dapat menghasilkan daya termal 30 MWth sehingga dinamakan RGTT30. Temperatur helium mampu mencapai 700 °C ketika keluar dari teras RGTT30 dan digunakan untuk memanaskan air di dalam steam generator hingga mencapai temperatur 435 °C. Steam generator dihubungkan dengan turbin uap yang dikopel dengan generator listrik
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4

Wardhana, Farhan Tantra, and Kasturi Kasturi. "OPTIMALISASI UNJUK KERJA LOW TEMPERATURE STEAM TURBINE SST-110 Di PT X." Prosiding Seminar Nasional Teknologi Energi dan Mineral 3, no. 1 (2023): 1–9. http://dx.doi.org/10.53026/sntem.v3i1.1349.

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PT X mempunyai Gas field yang merupakan proyek infrastuktur minyak dan gas didistribusikan kepada perusahaan lain untuk mengolah menjadi barang jadi. Untuk menunjang distribusi dan produksi di PT X dibutuhkannya steam turbine untuk menghasilkan energi listrik sebagai penerangan dan sebagai penggerak motor mesin-mesin. Turbin uap merupakan suatu mesin panas (heat engine) mengkonversi energi uap menjadi kinetic dan menggerakan generator. Steam Turbine di PT X memanfaatkan uap hasil pembakaran dari Acid sebagai penggeraknya. Untuk menjaga performa turbin tersebut tidak menurun diperlukannya peraw
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5

Rice, I. G. "Split Stream Boilers for High-Temperature/High-Pressure Topping Steam Turbine Combined Cycles." Journal of Engineering for Gas Turbines and Power 119, no. 2 (1997): 385–94. http://dx.doi.org/10.1115/1.2815586.

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Research and development work on high-temperature and high-pressure (up to 1500°F TIT and 4500 psia) topping steam turbines and associated steam generators for steam power plants as well as combined cycle plants is being carried forward by DOE, EPRI, and independent companies. Aeroderivative gas turbines and heavy-duty gas turbines both will require exhaust gas supplementary firing to achieve high throttle temperatures. This paper presents an analysis and examples of a split stream boiler arrangement for high-temperature and high-pressure topping steam turbine combined cycles. A portion of the
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6

Langston, Lee S. "Cogeneration: Gas Turbine Multitasking." Mechanical Engineering 134, no. 08 (2012): 50. http://dx.doi.org/10.1115/1.2012-aug-4.

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This article describes the functioning of the gas turbine cogeneration power plant at the University of Connecticut (UConn) in Storrs. This 25-MW power plant serves the 18,000 students’ campus. It has been in operation since 2006 and is expected to save the University $180M in energy costs over its 40-year design life. The heart of the UConn cogeneration plant consists of three 7-MW Solar Taurus gas turbines burning natural gas, with fuel oil as a backup. These drive water-cooled generators to produce up to 20–24 MW of electrical power distributed throughout the campus. Gas turbine exhaust hea
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7

Kocijel, Lino, Igor Poljak, Vedran Mrzljak, and Zlatan Car. "Energy Loss Analysis at the Gland Seals of a Marine Turbo-Generator Steam Turbine." Tehnički glasnik 14, no. 1 (2020): 19–26. http://dx.doi.org/10.31803/tg-20191031094436.

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The paper presents an analysis of marine Turbo-Generator Steam Turbine (TGST) energy losses at turbine gland seals. The analyzed TGST is one of two identical Turbo-Generator Steam Turbines mounted in the steam propulsion plant of a commercial LNG carrier. Research is based on the TGST measurement data obtained during exploitation at three different loads. The turbine front gland seal is the most important element which defines TGST operating parameters, energy losses and energy efficiencies. The front gland seal should have as many chambers as possible in order to minimize the leaked steam mas
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8

I Ketut Warsa, Sahrul Rhomadan, and Eka Megawati. "Optimasi Kinerja Steam Turbine Generator 4 Pada Power Plant 2 Utilities dengan Menaikkan Inlet Steam Flow (Studi Kasus PT. X)." Jurnal Ilmiah Teknik Kimia 9, no. 1 (2025): 8–13. https://doi.org/10.32493/jitk.v9i1.42520.

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Electrical energy has an important role for home needs such as washing machines and irons, as well as for the industrial sector such as power plants and other infrastructure. To create electrical energy, a system is needed which is known as a power plant.. At PT. X electrical energy is produced from the Power Plant which contains supporting equipment, one of which is the Steam Turbine Generator. A Steam Turbine generator is a machine that produces electrical energy from the use of hot steam converted into mechanical energy which is connected by the turbine shaft to the generator. In the refine
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9

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 (1995): 713–23. http://dx.doi.org/10.1115/1.2815457.

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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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10

Yefimov, Olexander, Larysa Tiutiunyk, Tetyana Harkusha, Tetyana Yesipenko, and Anastasiia Motovilnik. "Mathematical model of the horizontal steam generator PGV-1000." NTU "KhPI" Bulletin: Power and heat engineering processes and equipment, no. 1-2 (December 28, 2022): 53–57. http://dx.doi.org/10.20998/2078-774x.2022.01.06.

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The materials of the article consider the design characteristics of horizontal steam generators PGV-1000 for WWER NPPs. The NPP steam generator, in particular the PGV-1000 steam generator, is a specific heat exchange unit. This unit, together with a nuclear reactor and a steam turbine, is one of the main equipment of multi-circuit (double-circuit) steam turbine NPPs. The steam generator produces working steam using heat dissipated from the reactor core by the cooling medium and sent to the heat exchange surface of the steam generator. NPP steam generators, connecting the contours of the coolan
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11

Ravi, Kumar, Krishna Rama, and Rama Sita. "Thermodynamic analysis of heat recovery steam generator in combined cycle power plant." Thermal Science 11, no. 4 (2007): 143–56. http://dx.doi.org/10.2298/tsci0704143r.

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Combined cycle power plants play an important role in the present energy sector. The main challenge in designing a combined cycle power plant is proper utilization of gas turbine exhaust heat in the steam cycle in order to achieve optimum steam turbine output. Most of the combined cycle developers focused on the gas turbine output and neglected the role of the heat recovery steam generator which strongly affects the overall performance of the combined cycle power plant. The present paper is aimed at optimal utilization of the flue gas recovery heat with different heat recovery steam generator
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12

Wardianto, Dedi, Marfizal, and Sufiyanto. "Effect Of Electric Load On Steam Flow Rate At Steam Turbine As Generator." Jurnal Teknik Mesin 12, no. 2 (2022): 104–9. http://dx.doi.org/10.21063/jtm.2022.v12.i2.104-109.

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PT. Kurnia Batang Hari is a palm oil processing factory into palm oil. At PT KBHB there is a tool called “Steam Turbine Generator Type RB5” which functions as a power generator. This study aims to determine the effect of the load on the mass flow rate, turbine generator power, and determine the efficiency of the steam turbine generator. The research method is to take boiler and turbine data directly for 1 week. Get the enthalpy value from the steam table and can calculate based on the research objective. Based on the research conducted, it was found that the highest average flow rate on Wednes
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13

Miswar, Ahmad, Nurul Ramadhani, Nur Hamzah, and Suryanto Suryanto. "Rancang Bangun Model Turbin Tesla Dengan Variasi Tekanan." Jurnal Teknik Mesin Sinergi 22, no. 2 (2025): 326–32. https://doi.org/10.31963/sinergi.v22i2.5056.

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Electric energy is one of the essential aspects required in daily life. One of the most commonly used sources of electricity today is the steam power plant. However, the energy from this steam requires a special device to be converted into mechanical energy. The turbine used in this design is a steam turbine.The purpose of this design is to create a model of the Tesla turbine as a steam turbine, to determine the rotational speed generated by the Tesla turbine when subjected to varying steam pressures, and to determine the power generated by the generator when the Tesla turbine is subjected to
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14

Sultanov, M. M., and E. V. Kuryanova. "Research of the application of hydrogen as a fuel to improve energy and environmental performance of gas turbine plants." Power engineering: research, equipment, technology 23, no. 2 (2021): 46–55. http://dx.doi.org/10.30724/1998-9903-2021-23-2-46-55.

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THE PURPOSE. To consider various variants of thermal schemes of power plants and to assess the main technical and economic parameters. The article presents the results of the development of schemes of electric power plants with a capacity of up to 100 kW with a steam-generating hydrogen-oxygen plant for modeling and selecting effective options for thermal schemes of microgeneration power plants at the stage of design and development of energy systems. METHODS. The analysis of the proposed variants of thermal schemes with a hydrogen-oxygen steam generator, including circuit solutions of micro-g
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15

Hidayatullah, Nasrul, Dedi Wahyudi, and Agus Nuramal. "PENGARUH TEKANAN VACUUM CONDENSER TERHADAP KINERJA STEAM TURBINE GENERATOR." Rekayasa Mekanika 7, no. 1 (2023): 13–19. https://doi.org/10.33369/rekayasamekanika.v7i1.30100.

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Condenser is an main equipment on power steam electricity system generator. Condenser is an head exchanger that functions as a phase changer from the steam turbine output into water, which is where water results condensation the will pumped to HRSG for used back. Vacuum condenser working for speed up the condensation process in the condenser. PT. PLN (Persero) UPDK keramasan is generator electricity consists of 2 units from gas and steam power plant with power by gas turbine generator of ± 27 MW and a steam turbine generator of ± 13 MW so that the total each unit is 40 MW. This research to det
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16

Grabovskii, Vladimir. "Torsional Vibrations of the Steam Turbine Shaft Line and Estimation of the Residual Life of Its Elements." Известия высших учебных заведений. Электромеханика 63, no. 6 (2020): 91–98. http://dx.doi.org/10.17213/0136-3360-2020-5-91-98.

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A comparative quantitative assessment of the damage and residual life of the shaft line elements for differ-ent types of high-power steam turbines at the end of their design life is made by mathematical modeling. The analysis covers all elements of the shaft line: from the steam turbine Central pump to the turbine generator ex-citer. The simulated circuit includes turbo generators, transformers, gate converters, AC and DC power lines. When modeling, an approach is used from the position of proper coordinates, which provides maximum meth-odological consistency of the models of the listed device
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17

Strusnik, Dusan, Igor Kustrin, and Jurij Avsec. "Off-design flow analysis of cogeneration steam turbine with real process data." Thermal Science 26, no. 5 Part B (2022): 4107–17. http://dx.doi.org/10.2298/tsci2205107s.

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This paper presents the concept of reconstruction of the existing coal-fired combined heat and power plant to comply with new European environmental policies. The existing coal-fired boiler will be replaced by two new dual pressure heat recovery steam generators, which will utilize the exhaust gas heat from two new gas turbines. The steam from the heat recovery steam generators will be fed to the existing steam turbine. After the reconstruction, the nominal turbine inlet steam mass-flow of 40 kg/s will be reduced to 30 kg/s. During periods of low heat demand, only one gas turbine and one heat
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18

Yefimov, Olexander, Larysa Tiutiunyk, Harkusha Tetyana, Yesypenko Tetyana, and Anastasiia Motovilnik. "DESIGN CHARACTERISTICS OF THE HORIZONTAL STEAM GENERATOR PGV-1000." Bulletin of the National Technical University "KhPI". Series: Innovation researches in students’ scientific work, no. 2 (February 27, 2023): 8–12. http://dx.doi.org/10.20998/2220-4784.2022.02.02.

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The materials of the article consider the design characteristics of horizontal steam generators PGV-1000 for WWER NPPs. The NPP steam generator, in particular the PGV-1000 steam generator, is a specific heat exchange unit. This unit, together with a nuclear reactor and a steam turbine, is one of the main equipment of multi-circuit (double-circuit) steam turbine NPPs. The steam generator produces working steam using heat dissipated from the reactor core by the cooling medium and sent to the heat exchange surface of the steam generator. NPP steam generators, connecting the contours of the coolan
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19

Martinez-Frias, Joel, Salvador M. Aceves, J. Ray Smith, and Harry Brandt. "Thermodynamic Analysis of Zero-Atmospheric Emissions Power Plant." Journal of Engineering for Gas Turbines and Power 126, no. 1 (2004): 2–8. http://dx.doi.org/10.1115/1.1635399.

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This paper presents a theoretical thermodynamic analysis of a zero-atmospheric emissions power plant. In this power plant, methane is combusted with oxygen in a gas generator to produce the working fluid for the turbines. The combustion produces a gas mixture composed of steam and carbon dioxide. These gases drive multiple turbines to produce electricity. The turbine discharge gases pass to a condenser where water is captured. A stream of pure carbon dioxide then results that can be used for enhanced oil recovery or for sequestration. The analysis considers a complete power plant layout, inclu
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20

Kurniawan, Ricky, and Ali Akbar. "Analysis of the Causes of Turbine Power Efficiency Decreases." Procedia of Engineering and Life Science 7 (March 20, 2024): 523–28. http://dx.doi.org/10.21070/pels.v7i0.1517.

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Abstract. The steam turbine as the prime mover converts steam energy into kinetic energy and kinetic energy is further converted into mechanical energy in the form of rotation of the shaft turbine. Turbines as generator drives so as to produce electric power that can be used in various industrial fields. The energy required is large and the continuous use of the turbine must operate with sufficient stability for a long time. Turbine efficiency will decrease due to several factors such as errors during operation and duration of maintenance. Based on data obtained from PT. Synergy of Gula Nusant
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21

Komarudin, Udin, Iftika Philo, Nia Nuraeni, and Nissa Syifa Puspani. "Pipe Stress and Turbine Nozzle Load Analysis for HP Steam Inlet and MP Steam Extraction on Turbine Generator 51G201T Capacity 10MW." International Journal of Engineering & Technology 7, no. 4.33 (2018): 214. http://dx.doi.org/10.14419/ijet.v7i4.33.23562.

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Thermal pipe expansion on the turbine greatly affects the performance of the turbine, mainly produces misalignment in turbines. The stress analysis on the pipe and the load on the nozzle is very important to ensure that the stress that occurs is still safe and the load that occurs on the nozzle is still below the allowable load. Field information is known, Steam type of 51-G-201-T, capacity 10 MW, total weighs 58 tons, weight casing 37 tons, which has been operating since July 1989, has been occur misalignment on turbines. Stress pipe and load analysis of turbine nozzles on the turbine using s
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22

Vattanapuripakorn, Wenich, Khomson Khannam, Sathapon Sonsupap, et al. "Advanced Power Generation Using a Nitrogen Turbine Engine Instead of a Conventional Injection Steam Turbine Engine." Inventions 6, no. 4 (2021): 62. http://dx.doi.org/10.3390/inventions6040062.

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An ever-increasing demand for electrical power and soaring levels of energy consumption around the world have led to an energy crisis. Thus, this paper aims to review the conventional technologies against those of newer developments in electrical power generation such as using nitrogen generators. The nitrogen generator method is most appealing as it is a seemingly free energy already existing in nature. A nitrogen generator with a 5000 (Nm3/h) capacity has the potential to be used to analyze gas composition and the results are compared with the gas composition of a conventional steam turbine,
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23

Musa, La Ode, Abdul Rahman, Ikral Gapshel, and Triska Sombokanan. "Analisis Performansi Turbin dan Generator di PLTP Lahendong Unit 1 Tomohon." Jurnal Sinergi Jurusan Teknik Mesin 17, no. 1 (2019): 25. http://dx.doi.org/10.31963/sinergi.v17i1.1589.

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Lahendong Geothermal power plant is one of the Geothermal power plants in Indonesia which has four units and it be able to generate 4 × 20 MW of electrical energy by utilizing geothermal energy in the form of steam that supplied from wells created by Pertamina. The aim of this study is to determine the performance of the turbine and generator unit 1 which has been operated since 2001 by using thermodynamic analysis method calculating the steam quality and turbine work. Afterwards, turbine efficiency, turbine power and generator power were obtained. The average quality of geothermal steam at La
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24

Chavan, Nilay, Sunit Anchan, and Saurabh Jadhav. "MTEG (Mylar and Turbine Electric Generator)." International Journal of Students' Research in Technology & Management 3, no. 5 (2015): 382–85. http://dx.doi.org/10.18510/ijsrtm.2015.359.

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Mylar-Turbine Electric Generator (MTEG) that utilize solar energy to generate electricity. The resulting designs are cost efficient and can be used as an alternative for solar panel. The energy producing efficiency of MTEG is higher than conventional solar panel. The setup requires less area and is easily mobile. It consists of three main components Mylar parabolic reflector, steam turbine and electric generator. Mylar parabolic reflector is used to concentrate the solar rays on the water tank, the steam generated from this water is used to run the turbine which generates electricity. The idea
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25

CHO, SUNG-KEUN, CHANG-SUNG SEOK, BONG-KOOK BAE, and JAE-MEAN KOO. "EVALUATION OF THE HOOP TENSILE PROPERTIES OF A STEAM GENERATOR TUBE." International Journal of Modern Physics B 20, no. 25n27 (2006): 4129–34. http://dx.doi.org/10.1142/s0217979206040970.

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The steam generators in a pressurized water reactor (PWR) are large heat exchangers that use the heat from the primary reactor coolant to make steam on the secondary-side to drive turbine generators. Hoop stress is known to be the main cause of fracture of inner pressurized tubes such as the steam generator tube. However, because the steam generator tube is too small to be manufactured to a standard tensile specimen in the hoop direction, the axial tensile properties of the steam generator tube (or original material properties) instead of hoop tensile properties have been used to estimate the
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26

Hayasaka, Daisuke. "Installation of Steam Turbine and Induction Generator." JAPAN TAPPI JOURNAL 55, no. 5 (2001): 621–25. http://dx.doi.org/10.2524/jtappij.55.621.

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27

Hisana, Athiyyah Rieke, Dodi Sofyan Arief, and Gamal Fiqih Handonowarih. "Mechanism and control system of Damping Diverters in Heat Recovery Steam Generator (HRSG) at PT. Indonesia Power, UPJP Priok, DKI Jakarta, Indonesia." Journal of Ocean, Mechanical and Aerospace -science and engineering- (JOMAse) 63, no. 2 (2019): 11–15. https://doi.org/10.36842/jomase.v63i2.212.

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Heat Recovery Steam Generator (HRSG) is one of the components in PLTGU, HRSG used the remaining heat energy to circulate a gas turbine unit to heat the water and convert to steam, and then activate it to move the steam turbine. Water heating in HRSG is done by utilizing exhaust gas as much as possible from the gas turbine. In HRSG there is one component that is a diverter damper that functions as a diverter or regulates the amount of residual combustion gas flow from the gas turbine generator step into HRSG.
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Siswanto, Jatmiko Edi, and Wahyu Tri Purnomo. "Perbandingan Efisiensi Penggunaan Bahan Bakar Antara Arang Kayu dan Gas LPG Pada PLTU Tekanan Rendah." Jurnal Teknik Mesin dan Industri (JuTMI) 1, no. 1 (2022): 25–29. http://dx.doi.org/10.55331/jutmi.v1i1.8.

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Sources of electrical energy is a basic need in life, both in industry and the necessities of life. Along with the depletion of fossil energy, it is necessary to develop a biomass energy source as a fuel for electrical energy. For this reason, this study aims to create innovative power plants using biomass energy as fuel. The steam turbine is a prime mover that converts the potential energy of steam into kinetic energy and then converts it into mechanical energy in the form of a turbine shaft rotation, directly or with the help of a reduction gear, connected to the mechanism to be driven. In a
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Dong, Li Yu, Zhi Wei Zhou, and Yang Ping Zhou. "Mathematical Model and Dynamic Characteristics of Spiral-Style Super-Critical Steam Generator Used HTGR." Advanced Materials Research 347-353 (October 2011): 1678–82. http://dx.doi.org/10.4028/www.scientific.net/amr.347-353.1678.

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Modular HTGR nuclear power plant because of inherent safety and high thermal efficiency shows good prospects for development. The current high-temperature reactor demonstration power plant (HTR-PM) using two thermal power of 250MW of modular HTGR with an electric power 211MWe turbine unit. As one development goals of multi-reactor with one turbine unit, millions of kilowatt nuclear power plant will use more reactor module and steam generator module more like demonstration power plant (HTR-PM) with 1000MWe supercritical turbine generator unit. spiral-style super-critical steam generator design,
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30

Wei, Yaobing, Xin Wang, Yuanyuan Kong, and Changfeng Yan. "A probability uncertainty method of fault classification for steam turbine generator set based on Bayes and Holospectrum." Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science 230, no. 20 (2016): 3767–76. http://dx.doi.org/10.1177/0954406215616146.

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With the rapid development of the machinery and the increasing complexity of the steam turbine generator set, it is a great challenge for the safe and reliable operation of the steam turbine generator set. The uncertainties of fault classification and complicated working conditions become important research fields of steam turbine generator. A probability method on the uncertainty reasoning of fault classification for steam turbine generator is proposed in this paper based on the 2D-holospectrum and Bayesian decision theory. Firstly, Bayesian decision theory is adopted for the preliminary faul
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31

Alam, Mohammad Tawhidul, Tanbir Ibne Anowar, Md Ashiquzzaman ., Foysal Dhali, and Sifatuzzaman Niloy. "Electricity Generation from Exhaust Steam of a Steam Turbine Generator." Journal of Electrical and Power System Engineering 10, no. 1 (2024): 33–43. http://dx.doi.org/10.46610/jepse.2024.v010i01.005.

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The world desperately needs renewable energy. Harnessing energy from waste heat has the potential of bringing in a new era of electricity. This paper explores the utilization of waste heat through the implementation of a Peltier module-based electricity generation system. The proposed system employs Thermoelectric Generators (TEGs), leveraging the Seebeck effect, to convert thermal energy differentials into electric voltage. Through a detailed examination of the system's design, implementation methodology, and experimental results, the paper clarifies the feasibility and efficiency of Peltier-
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32

SANTOS, RICARDO B., and PETER W. HART. "Case study: Paper mill power plant optimization—balancing steam venting with mill demand." June 2020 19, no. 6 (2020): 317–21. http://dx.doi.org/10.32964/tj19.6.317.

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Most Power departments are tasked with generating steam to support mill wide operations, gener-ate electricity, and reduce operating costs. To accomplish these tasks, power boilers generate high pressure steam that is reduced to intermediate and low pressures for process utilization in the mill by means of steam turbine generator extraction or pressure reducing valves. The most economical method to reduce steam pressure is the use of steam turbine generators, as electricity is generated from the steam when it is reduced in pressure. Electricity that is produced by these generators provides a s
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Silvestri, G. J., R. L. Bannister, T. Fujikawa, and A. Hizume. "Optimization of Advanced Steam Condition Power Plants." Journal of Engineering for Gas Turbines and Power 114, no. 4 (1992): 612–20. http://dx.doi.org/10.1115/1.2906634.

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The modern pulverized-coal power plant is the product of continuous design experience and component improvement in the 20th century. In recent years, studies of the effect of high temperatures on turbine materials have led to major worldwide research and development programs on improving the thermal cycle by raising turbine-inlet pressure and temperature. This paper reviews the importance of various parameters in trying to optimize a turbine cycle designed for advanced steam conditions. Combinations of throttle pressure (between 3500 psi [24.1 MPa] and 10,000 psi [70MPa]), throttle and reheat
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34

Nadir, Mahmoud, and Adel Ghenaiet. "Steam turbine injection generator performance estimation considering turbine blade cooling." Energy 132 (August 2017): 248–56. http://dx.doi.org/10.1016/j.energy.2017.05.048.

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Maunsbach, K., A. Isaksson, J. Yan, G. Svedberg, and L. Eidensten. "Integration of Advanced Gas Turbines in Pulp and Paper Mills for Increased Power Generation." Journal of Engineering for Gas Turbines and Power 123, no. 4 (2001): 734–40. http://dx.doi.org/10.1115/1.1359773.

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The pulp and paper industry handles large amounts of energy and today produces the steam needed for the process and some of the required electricity. Several studies have shown that black liquor gasification and combined cycles increase the power production significantly compared to the traditional processes used today. It is of interest to investigate the performance when advanced gas turbines are integrated with next-generation pulp and paper mills. The present study focused on comparing the combined cycle with the integration of advanced gas turbines such as steam injected gas turbine (STIG
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36

Kim, T. S., and S. T. Ro. "The effect of gas turbine coolant modulation on the part load performance of combined cycle plants. Part 2: Combined cycle plant." Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy 211, no. 6 (1997): 453–59. http://dx.doi.org/10.1243/0957650981537348.

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For combined cycle plants that consist of heavy-duty gas turbine and single-pressure heat recovery steam generator, the effect of gas turbine coolant modulation on plant performance is analysed. Two distinct schemes for gas turbine load control are adopted (the fuel-only control and the variable compressor geometry control), based on the gas turbine calculation in Part 1 of this series of papers. Models for heat recovery steam generator and steam turbine are combined with the gas turbine models of Part 1 to result in a complete analysis routine for combined cycles. The purpose of gas turbine c
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SUGANDI, BUDI, FAUZUN ATABIQ, and RIFKA ADELIA ASTI. "Pengaruh Beban Gas Turbine Generator terhadap Efisiensi Heat Recovery Steam Generator pada Pembangkit Listrik Tenaga Gas Uap (PLTGU)." ELKOMIKA: Jurnal Teknik Energi Elektrik, Teknik Telekomunikasi, & Teknik Elektronika 11, no. 3 (2023): 639. http://dx.doi.org/10.26760/elkomika.v11i3.639.

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ABSTRAKPembangkit Listrik Tenaga Gas Uap (PLTGU) merupakan kombinasi Pembangkit Listrik Tenaga Gas (PLTG) dan Pembangkit Listrik Tenaga Uap (PLTU). Kombinasi ini menggunakan sistem combine cycle power plant. Untuk meningkatkan efisiensi pembangkit, PLTGU memanfaatkan panas gas buang turbin untuk memanaskanair pada pipa-pipa Heat Recovery Steam Generator (HRSG) menjadi uap yang digunakan untuk menggerakkan bilah-bilah turbin uap dan memutar generator guna menghasilkan energi listrik. Artikel ini membahas pengaruh beban terhadap efisiensi HRSG. Pengamatan dilakukan selama 24 jam selama beberapa
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Liu, Zhan Hui, and He Jun Bao. "The Research on Shaft Center Position of Ultra-Supercritical Steam-Turbine Generator." Advanced Materials Research 655-657 (January 2013): 137–43. http://dx.doi.org/10.4028/www.scientific.net/amr.655-657.137.

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The shaft center of steam-turbine generator, showing relative position of shaft and bearing bush, would changed when jacking oil pump or turning gear started, raising speed and loading carrying. The change of bear carrying, oil film rigidity and clearance variation in flow passage of steam-turbine generator could be deduced through measuring shaft center position and analyzing its variation to working conditions, which would be helpful for treating vibration malfunction cased by deficiency of oil film rigidity, steam flow exciting and rubbing.
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Handoko, Susilo, Hendra Hendra, Hafid Suharyadi, and Totok Widiyanto. "Optimization Of Gas Turbine Performance 2.1 Using the Overhaul Combustion Inspection Method." Jurnal Polimesin 22, no. 1 (2024): 103. http://dx.doi.org/10.30811/jpl.v22i1.4221.

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Gas turbines are one type of internal combustion drive, the initial mover utilizes gas combustion as a fluid to rotate the turbine with internal combustion. Gas turbines at private companies producing electricity use the initial movers, namely gas turbines and steam turbines. Therefore, it is also called the "Steam Gas Power Plant/PLTGU.”Private company especially in Block 2, uses two gas turbine units with Mitsubishi GT 2.1 specifications which are used as the initial drive of the generator. Types of overhauls in gas turbines are divided into three, including turbine inspection, combustor ins
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Aslam, Khairul, and Dani Rusirawan. "Analisis Energi dan Eksergi Generator dan Turbin Uap untuk Pompa Air pada Kapal Laut." Jurnal Tekno Insentif 18, no. 1 (2024): 11–25. https://doi.org/10.36787/jti.v18i1.1367.

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Abstrak Sebagian besar kapal laut masih menggunakan mesin diesel sebagai penggerak. Namun pada jenis kapal tertentu, penggeraknya sudah berbasis Pembangkit Listrik Tenaga Uap. Turbin uap digunakan tidak hanya untuk penggerak baling-baling kapal, tetapi juga berguna sebagai penggerak pompa MFP. Pengukuran dilakukan di semua kondisi operasi mulai dari kapal berakselerasi, beroperasi maksimum, hingga kembali berhenti. Berdasarkan berbagai evaluasi dan analisis diperoleh bahwa efisiensi energi dan eksergi dari turbin berdaya rendah bervariasi antara 46% sampai 62%. Suhu lingkungan memiliki pengaru
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Nirmala Shivram, Padmavat. "Thermal Power Plant Equipment Using IBM SPSS Statistics Mehtod." REST Journal on Emerging trends in Modelling and Manufacturing 6, no. 2 (2020): 62–73. http://dx.doi.org/10.46632/6/2/6.

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Thermal Power Plant Equipment. Introduction: A thermal power station is a power station called, the prime mover this is the steam mover. Made to enter the water system then heated, then vaporized will change. The steam rotates in it tries an electric generator and a steam turbine. A type of power plant where thermal energy is transformed into electrical energy is a thermal power plant. Steam high pressure occurs during the formation cycle. A sizable one for creating water steam in a pressure ves-sel. Boiling is accomplished by the application of heat and an electrical generator. The turbine is
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Brander, J. A., and D. L. Chase. "Repowering Application Considerations." Journal of Engineering for Gas Turbines and Power 114, no. 4 (1992): 643–52. http://dx.doi.org/10.1115/1.2906637.

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As utilities plan for load growth in the 1990s, they are faced with the difficulty of choosing the most economic generation while subject to a number of challenging constraints. These constraints include environmental regulations, particularly the new Clean Air Act, risk aversion, fuel availability and costs, etc. One of the options open to many utilities with existing steam units is repowering, which involves the installation of gas turbine(s) and heat recovery steam generator(s) (HRSG) to convert the steam plant to combined-cycle operation. This paper takes an overall look at the application
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Zhang, Xifan. "Description and Optimization of Gas Turbine Generator Sets." Highlights in Science, Engineering and Technology 120 (December 25, 2024): 452–56. https://doi.org/10.54097/ccdjzd60.

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Form this article, the author mainly interprets the principle and composition of gas turbine generator set, as well as discusses how to improve efficiency and treat exhaust gases, which including compressor interstage waste heat utilization for power generation, auxiliary catalytic technology and gas-steam turbine combined cycle. Taking the Rankine cycle based on compressor interstage waste heat as an example, it discusses how to recover and utilize the compressor interstage waste heat; through the analysis of the waste heat recovery system, it is concluded that the auxiliary catalytic technol
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Jesionek, Krzysztof, Andrzej Chrzczonowski, Paweł Ziółkowski, and Janusz Badur. "Power enhancement of the Brayton cycle by steam utilization." Archives of Thermodynamics 33, no. 3 (2012): 36–47. http://dx.doi.org/10.2478/v10173-012-0016-x.

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Abstract The paper presents thermodynamic analysis of the gas-steam unit of the 65 MWe combined heat and power station. Numerical analyses of the station was performed for the nominal operation conditions determining the Brayton and combined cycle. Furthermore, steam utilization for the gas turbine propulsion in the Cheng cycle was analysed. In the considered modernization, steam generated in the heat recovery steam generator unit is directed into the gas turbine combustion chamber, resulting in the Brayton cycle power increase. Computational flow mechanics codes were used in the analysis of t
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Nordin, A., and M. A. Abd Majid. "Parametric study on the effects of pinch and approach points on heat recovery steam generator performance at a district cooling system." Journal of Mechanical Engineering and Sciences 10, no. 2 (2016): 2134–44. https://doi.org/10.15282/jmes.10.2.2016.17.0201.

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Heat recovery steam generators are important equipment at district cooling plants. The capability of heat recovery steam generators in generating steam influences the steam absorption chiller’s performance. The steam generation capability of the heat recovery steam generators in turn is linked to the values of pinch point and approach point. Hence, a study on the pinch point and approach point for the heat recovery steam generators would be useful in understanding the effects of varying pinch point and approach point values to the heat recovery steam generators’ performance. In relation to thi
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Koprowski, Arkadiusz, and Romuald Rządkowski. "Optimization of Curtis stage in 1 MW steam turbine." E3S Web of Conferences 137 (2019): 01039. http://dx.doi.org/10.1051/e3sconf/201913701039.

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When operating at 3000 rpm, small turbines do not require a gear box and the generator does not require complex electronic software. This paper analyses the various geometries of the Curtis stage, comprising two rotor and stator blades with and without an outlet, from the efficiency point of view. Presented are 3D steady viscous flows. The results were compared with the performance of an axial turbine.
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Stelmashchuk, S. V., and E. D. Sherov. "Electromechanical speed control system for steam turbine generator." IOP Conference Series: Materials Science and Engineering 1089, no. 1 (2021): 012014. http://dx.doi.org/10.1088/1757-899x/1089/1/012014.

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48

Kostikov, Andrii, Victoria Tarasova, Mikhail Kuznetsov, Mykola Ganzha, and Andrii Mazur. "EFFICIENCY EVALUATION OF STEAM-GAS PLANTS WITH THE SOLID OXIDE FUEL CELLS INTEGRATION." Bulletin of the National Technical University «KhPI» Series: New solutions in modern technologies, no. 4(14) (December 28, 2022): 3–10. http://dx.doi.org/10.20998/2413-4295.2022.04.01.

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Today in Ukraine the generation of electricity increasing is an extremely urgent task, which can be solved in a short period not only by the creation of new power plants, but by the modernization of high-power steam power units of existing thermal power plants. The conceptual solutions for the use of the gas turbine cycle and solid oxide fuel cell (SOFC) technology as an add-on to existing high-power steam turbines to increase the efficiency and environmental friendliness of their operation was developed. The paper considers the ways of complex modernization on the example of power units of CH
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Filinov, Evgeny, Andrey Tkachenko, Hewa Hussein Omar, and Viktor Rybakov. "Increase the Efficiency of a Gas Turbine Unit for Gas Turbine Locomotives by Means of Steam Injection into the Flow Section." MATEC Web of Conferences 220 (2018): 03010. http://dx.doi.org/10.1051/matecconf/201822003010.

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In the modern world of railways, electrification is given great importance. Currently, more than 50% of all freight traffic carried out by electric traction. However, today, about half of the railways are not electrified, so it is necessary to use thermal engines to drive the locomotive. One of the possible variant is use gas turbine unit. The power of the gas turbine unit is given to the electric generator, and the electric motors drive the locomotive. In the present paper, as a power plant of a gas turbine locomotive, considered gas turbine unit with a twin -shaft gas generator of two scheme
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Adi, Hesmi Rafsanjani, and Dwi Mulyono. "OPTIMALISASI PERFORMA STEAM TURBINE TC2F - 33.5 DI PEMBANGKIT LISTRIK TENAGA GAS UAP." Prosiding Seminar Nasional Teknologi Energi dan Mineral 3, no. 1 (2023): 33–41. http://dx.doi.org/10.53026/sntem.v3i1.1291.

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Pembangkit Listrik Tenaga Gas Uap (PLTGU) merupakan unit sistem yang melakukan siklus gabungan (combine cycle) antara siklus pada Gas Turbine dan Steam Turbine. Unit ini memiliki 3 (tiga) Blok sistem unit, pada masing-masingnya memiliki 3 Gas Turbine, 3 Heat Recovery Steam Generator (HRSG) dan 1 Steam Turbine. Pada Blok 1, menurut standarisasi operasinya telah beroperasi dengan batas waktu operasi maksimum, sehingga dilakukannya Major Overhaul System. Pada Steam Turbine Blok 1 PLTGU, perlu dilakukannya evaluasi unjuk kerja sebelum dilakukannya overhaul, karena agar dapat mengetahui perubahan e
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