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Journal articles on the topic 'Turgo turbine'

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

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1

Ramaputra, Dharmacakra, and Jusuf Haurissa. "ANALISA KINERJA TURBIN TURGO DAN TURBIN PELTON SKALA LABORATORIUM." DINAMIS 19, no. 1 (2022): 28–34. http://dx.doi.org/10.58839/jd.v19i1.1103.

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This study aims to analyze the performance comparison of turgo turbines and laboratory-scale Pelton turbines. The research was conducted using the H41D/C turbine simulator in the Mechanical Engineering Laboratory of Jayapura University of Science and Technology. Turgo turbines and Pelton turbines were installed in the turbine simulator alternately, and then the turbines were tested for comparison of power and efficiency. During the testing process, the data is measured by turbine rotation, flow rate, and flow pressure using the ADC, then the results are entered into the table, then processed t
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2

Muhammad Mizan, Warjito, Budiarso, Ridho Irwansyah, Muhamad Agil Fadhel Kurnianto, and Muhammad Faridz Athaya. "The Performance of the Pico Scale Turgo Water Turbine Coconut Shell Blade with Variations in Nozzle Diameter and Distance." Journal of Advanced Research in Fluid Mechanics and Thermal Sciences 100, no. 1 (2022): 53–62. http://dx.doi.org/10.37934/arfmts.100.1.5362.

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The Turgo turbine is a pico-scale water turbine that can produce less than 5kW electricity at low altitudes. Turgo turbines also have quite affordable investment and maintenance costs. Turgo turbine design is strongly influenced by the speed triangle and the size of the nozzle diameter. This study aims to compare the nozzle diameter with the nozzle distance on the coconut shell blade on the efficiency of the Turgo turbine. This turbine is designed with a height of 3.5 m, a flow rate of 32.5 l/m, with various diameters and nozzle distances. Variations in the diameter of the nozzle are 8,10,12 m
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3

Bayu Suka Yasa, I. Putu, I. Wayan Arta Wijaya, and I. Gusti Ngurah Janardana. "PENGARUH VARIASI SUDUT NOZZLE TERHADAP KECEPATAN PUTAR TURBIN DAN DAYA OUTPUT PADA PROTOTYPE PLTMH MENGGUNAKAN TURBIN TURGO." Jurnal SPEKTRUM 9, no. 2 (2022): 112. http://dx.doi.org/10.24843/spektrum.2022.v09.i02.p13.

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Turgo turbine is an impulse turbine that uses a water drop height (head), the ability of the runner rotational speed of a turgo turbine is influenced by the following variables the height of the water drop (head), nozzle angle, number of nozzles, and nozzle spray distance, but there are several problems that exist in the turgo turbine, one of wich is at the nozzle there is no equation that determine the nozzle angle to produces maximum output on the turgo turbine so it is need to test the nozzle angle on the turgo turbine, therefore this reasearch was conducted with the aim of knowing the effe
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4

Khurana, Sourabh, Dr Varun, and Anoop Kumar. "Experimental Investigation of Erosion and Performance of Turgo Impulse Turbine." Hydro Nepal: Journal of Water, Energy and Environment 12 (October 29, 2013): 76–79. http://dx.doi.org/10.3126/hn.v12i0.9038.

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he present study has been carried out to investigate the effect of silt size, concentration, jet velocity, nozzle angle and operating hour on the erosive wear as well as on the performance of the Turgo impulse turbine in actual flow conditions. Samples of silt were collected from the Beas River (India) near the Pandoh dam. It has been found experimentally that silt parameters, nozzle angle and operating hour of the Turgo turbine increases the erosive wear rate in the turbine components causing efficiency loss in the Turgo impulse turbine and final breakdown of hydro turbines. Hydro Nepal; Jour
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Suwartama Wijaya, I. Made, I. Wayan Arta Wijaya, and I. Gusti Ngurah Janardana. "PENGARUH VARIASI TEKANAN AIR TERHADAP PUTARAN TURBIN DAN DAYA OUTPUT YANG DIHASILKAN PROTOTYPE PLTMH MENGGUNAKAN TURBIN TURGO." Jurnal SPEKTRUM 9, no. 2 (2022): 173. http://dx.doi.org/10.24843/spektrum.2022.v09.i02.p20.

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Turgo turbine|is}one^type^of|impulse^turbine{that{is often used!in MHP (Microhydro Power Plant) which has a high head due to the sharp curvature of the blade. The case in turgo turbines is that{the|head!is?still)incorrect, because:this^type^of{turbine{uses*a!high(head-to<rotate^the^turbine runner. Based on what was{described, it!is^necessary!to”make|a prototype of PLTMH>using turgo turbines, in|”order{to(be)able:to”carry|out air pressure effect tests to obtain maximum output and efficiency in PLTMH using turgo turbines. The quantitative experimental method is carried out by calculating t
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6

Imam Syofii, Dewi Puspita Sari, Mochamad Amri Santosa, et al. "Feasibility of Pico Scale Turgo Turbine Blade Manufacturing Method Using Three-Dimension Printer Technology." Journal of Advanced Research in Fluid Mechanics and Thermal Sciences 107, no. 1 (2023): 190–201. http://dx.doi.org/10.37934/arfmts.107.1.190201.

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This study proposed the design of pico-scale Turgo turbine blades using triangle velocity and printing blades using three-dimensional (3D) printer technology. Then, describe the testing method of Pico scale Turgo turbines in laboratory conditions. The velocity triangle analysis accommodates backflow where it is affected by blade angle; this is relevant to the Turgo turbine because the flow and blades have an angle so that the estimated change in momentum approaches real conditions. Based on calculation results, the geometry of the pico-scale Turgo turbine blades that produce maximum performanc
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7

Mizan, M., Budiarso, and Warjito. "Impact of Distance and Nozzle Diameter on The Efficiency of Pico-Scale Turgo Water Turbine Blades Made From Coconut Shell." IOP Conference Series: Earth and Environmental Science 1511, no. 1 (2025): 012001. https://doi.org/10.1088/1755-1315/1511/1/012001.

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Abstract The pico-scale generator is needed which is cheap and can be used in rural areas. Pico hydro is one solution to help provide lighting in remote villages. The Turgo turbine was chosen because of its easy-to-manufacture design, maintenance costs, and low production costs and it is easy to transport to remote areas with ease. The manufacture of Turgo turbine blades itself can use coconut shells which are easily found on the coast of Indonesia. This study aims to determine the effect of nozzle diameter on the performance of a Turgo turbine using coconut shells as a Turgo turbine blade and
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8

Purwono, Arif Hidayat, and Tota Pirdo Kasih. "PENGARUH JUMLAH SUDU VAWT (VERTICAL AXIS WATER TURBINE) TERHADAP DAYA OUTPUT PLTA PIKO HIDRO." Teknika 9, no. 2 (2024): 163–68. https://doi.org/10.52561/teknika.v9i2.391.

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Perkembangan perangkat listrik modern yang semakin hemat energi, memberikan peluang untuk dikembangkannya pembangkit listrik berskala kecil. Indonesia yang beriklim tropis, dan memiliki curah hujan yang tinggi bisa dimanfaatkan sebagai sumber tenaga alternatif memberikan potensi dikembangkannya pembangkit listrik skala piko di masa depan. Penelitian ini akan mengembangkan turbin skala piko berjenis Turgo berdiameter 380 mm dengan memvariasikan jumlah sudu 8, 12, dan 16. Penelitian menggunakan pengujian eksperimental melalui prototipe alat uji Vertical Axis Water Turbine (VAWT) skala laboratori
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9

Yoga Pratama, I. G., I. W. Arta Wijaya, and I. N. Budiastra. "ANALISIS PENGARUH PENGGUNAAN DUA NOZZLE TERHADAP DAYA OUTPUT LISTRIK PADA PROTOTYPE PEMBANGKIT LISTRIK TENAGA PIKOHIDRO DENGAN MENGGUNAKAN TURBIN TURGO." Jurnal SPEKTRUM 10, no. 4 (2023): 85. http://dx.doi.org/10.24843/spektrum.2023.v10.i04.p11.

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This study uses two nozzles on the PLTPH prototype with a turgo turbine because this research wants to apply the use of two nozzles in a pelton turbine. This study aims to determine the effect of using two nozzles on the output power produced by the PLTPH prototype with the direct test method on the prototype made. This two-nozzle PLTPH prototype with a turgo turbine can produce higher turbine rotation than the existing conditions. The final result is the highest rotation on the turbine using 2 nozzles where the A nozzle angle is 70° based on the x axis and the B nozzle angle is 60° based on t
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10

Pandwa Putra, Ida Bagus Made, I. Wayan Arta Wijaya, and I. Gusti Ngurah Janardana. "PENGARUH PERUBAHAN JUMLAH SUDU TURBIN TURGO TERHADAP DAYA OUTPUT PADA PROTOTYPE PEMBANGKIT LISTRIK TENAGA MIKROHIDRO (PLTMH)." Jurnal SPEKTRUM 9, no. 3 (2022): 1. http://dx.doi.org/10.24843/spektrum.2022.v09.i03.p1.

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The increase in demand for electrical energy in Indonesia causes a reduction in conventional fuel reserves. This situation forces people to look for alternative energy sources or commonly callednew and renewable energy (RE). Seeing the geographical condition of the environment in Indonesiawhich has the potential for the development of electrical energy by utilizing the flow of water, it iscalled a Micro Hydro Power Plant (PLTMH). In implementing MHP, one type of impulse turbine canbe used, namely the Turgo turbine. This study focused on knowing the effect of variations in thenumber of blades o
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11

Aditya Kresna Artha K, I. Gede Putu, I. Wayan Arta Wijaya, and I. Gusti Ngurah Janardana. "RANCANG BANGUN PROTOTYPE PLTMH DENGAN TURBIN TURGO." Jurnal SPEKTRUM 9, no. 2 (2022): 1. http://dx.doi.org/10.24843/spektrum.2022.v09.i02.p1.

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Learning about using water resources as a MHP is need to implemented for Electrical Engineering students at Udayana University. Currently at the Energy Conversion Laboratory the Electrical Engineering Study Program Faculty of Engineering Udayana University cannot yet to carry out practicum on MHP due to the unavailability of devices and equipment. Therefor it needs to analyze the design of this MHP prototype. Turgo turbine is a classification of impulse turbine that require water pressure as a source to rotate the turbine. In this research a prototype of MHP with a turgo turbine has been forme
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12

신준 and 이태연. "Development of Turgo Turbine for Pico Hydropower." Journal of the Korean Society of Mechanical Technology 18, no. 2 (2016): 208–13. http://dx.doi.org/10.17958/ksmt.18.2.201604.208.

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13

Aggidis, George, Audrius Židonis, Luke Burtenshaw, et al. "Methodology for the Optimization of a Novel Hydro Turbine with a Case Study." Energies 16, no. 22 (2023): 7591. http://dx.doi.org/10.3390/en16227591.

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As the world strives towards its goal of net zero carbon emissions, it is vital that renewable energy sources be optimized to their full potential. A key source of renewable energy is hydropower, more specifically, the Pelton turbine—a highly efficient, widely used, and well-researched piece of turbomachinery. This review proposes a methodology that will aid future research on Pelton turbines and compares relevant literature to assess effective ways to improve upon the Pelton design. The methodology evaluates how both experimental and computational analysis can be utilized in parallel to accel
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14

Butchers, Joe, Shaun Benzon, Sam Williamson, Julian Booker, and George Aggidis. "A Rationalised CFD Design Methodology for Turgo Turbines to Enable Local Manufacture in the Global South." Energies 14, no. 19 (2021): 6250. http://dx.doi.org/10.3390/en14196250.

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In the Global South, pico- and micro-hydropower turbines are often made by local workshops. Despite several advantageous features, e.g., a high power density and capacity to handle silt, there is no commonly available Turgo turbine design appropriate for local manufacture. Technological developments including the internet, CAD, and additive manufacturing increase the opportunity to precisely transfer designs around the world. Consequently, design improvements can be shared digitally and used by manufacturers in their local context. In this paper, a rationalised CFD approach was used to guide s
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15

Perez-Rodriguez, A. J., J. Sierra-Del Rio, L. F. Grisales-Noreña, and S. Galvis. "Optimization of the Efficiency of a Michell–Banki Turbine Through the Variation of Its Geometrical Parameters Using a PSO Algorith." WSEAS TRANSACTIONS ON APPLIED AND THEORETICAL MECHANICS 16 (August 2, 2021): 37–46. http://dx.doi.org/10.37394/232011.2021.16.5.

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Small-scale hydropower generation can satisfy the needs of communities located near natural sources of flowing water. The operating conditions of a Michell–Banki Turbine (MBT) are relatively easier to meet than those of other types of turbine, making it useful in places where other devices are not suitable. Moreover, MBT efficiency is almost invariable with respect to flow rate conditions. Nevertheless, such efficiency commonly ranges between 70% and 85%, which is lower than that of other water turbines like Turgo, Pelton, or Francis turbine. The objective of this work is to determine the maxi
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Perez-Rodriguez, A. J., J. Sierra-Del Rio, L. F. Grisales-Noreña, and S. Galvis. "Optimization of the Efficiency of a Michell-Banki Turbine through the Variation of its Geometrical Parameters using a PSO Algorithm." WSEAS TRANSACTIONS ON HEAT AND MASS TRANSFER 17 (February 8, 2022): 45–53. http://dx.doi.org/10.37394/232012.2022.17.6.

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Small-scale hydropower generation can satisfy the needs of communities located near natural sources of flowing water. The operating conditions of a Michell–Banki Turbine (MBT) are relatively easier to meet than those of other types of turbine, making it useful in places where other devices are not suitable. Moreover, MBT efficiency is almost invariable with respect to flow rate conditions. Nevertheless, such efficiency commonly ranges between 70% and 85%, which is lower than that of other water turbines like Turgo, Pelton, or Francis turbine. The objective of this work is to determine the maxi
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17

Khurana, Sourabh, Varun Goel, Khushmeet Kumar, and Muneesh Sethi. "Effect of Silt Size, Concentration on Erosion of Turgo Turbine Blades." Hydro Nepal: Journal of Water, Energy and Environment 13 (March 13, 2014): 72–75. http://dx.doi.org/10.3126/hn.v13i0.10060.

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An experimental investigation in actual flow conditions has been carried out to study the effect of silt size, concentration, jet velocity, operating hours and nozzle angle on erosive wear of Turgo impulse turbine blades. Experiments have shown that maximum erosion occurs at nozzle angle of 20ο for silt size 370 μm and silt concentration of 12000 ppm. During the experiments it has been observed that erosive wear depends on silt size, silt concentration, nozzle angle and operating hours of turbine. A correlation has also been developed as a function of silt size, silt concentration, operating h
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18

Williamson, S. J., B. H. Stark, and J. D. Booker. "Performance of a low-head pico-hydro Turgo turbine." Applied Energy 102 (February 2013): 1114–26. http://dx.doi.org/10.1016/j.apenergy.2012.06.029.

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19

Benzon, D. S., G. A. Aggidis, and J. S. Anagnostopoulos. "Development of the Turgo Impulse turbine: Past and present." Applied Energy 166 (March 2016): 1–18. http://dx.doi.org/10.1016/j.apenergy.2015.12.091.

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20

Abdi Nugraha, I. M. Tata, I. W. Arta Wijaya, and I. N. Budiastra. "ANALISIS PERBANDINGAN DAYA OUTPUT LISTRIK ANTARA PENGGUNAAN TRANSMISI GEAR DAN PULLEY PADA PROTOTYPE (PLTPH) MENGGUNAKAN TURBIN TURGO." Jurnal SPEKTRUM 10, no. 4 (2023): 1. http://dx.doi.org/10.24843/spektrum.2023.v10.i04.p1.

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Picohydro Power Plant is one of the environmentally friendly generators that can meet the electricity needs in the vicinity, one of which is in the Kanto Lampo Waterfall Tourism area. The planning of this PLTPH prototype is carried out to meet the lighting needs in the waterfall area. This PLTPH prototype plan uses a turgo turbine and there are two transmissions that can be used, namely, gear and pulley. This study will make a comparison between gear and pulley transmissions with the direct measurement method on the prototype and aims to determine the transmission that can get the best results
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21

Imam Syofii, Andre Brilian Hidayatullah, Dendy Adanta, Dewi Puspita Sari, Firmansyah Burlian, and Muhammad Amsal Ade Saputra. "Pico Scale Turgo Turbine Design for Remote Areas Application Using Velocity Triangle Approach." Journal of Advanced Research in Fluid Mechanics and Thermal Sciences 97, no. 1 (2022): 157–67. http://dx.doi.org/10.37934/arfmts.97.1.157167.

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The global warming issue drives pico-scale hydropower plants to become the leading research focus. Pico-scale Turgo turbine (PSTT) is a suitable proposal to be developed as a power plant because it is cheap, easy to manufacture, and simple in shape and design. Although PSTT has been developed for a long time, the final decision on the optimum parameters of the jet angle and the blade angle does not exist, and the precision manufacturing technology for PSTT blade manufacturing has not received special attention. Hence, this study aims to evaluate the jet angle and the geometry of the pico-scale
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22

Musa, La Ode, Jamal Jamal, Ridwan Ridwan, and Intania Namira Luspa. "Uji Kinerja Turbin Turgo dengan Variasi Jumlah Sudu dan Sudut Kemiringan Nozzle." Jurnal Teknik Mesin Sinergi 21, no. 1 (2023): 31. http://dx.doi.org/10.31963/sinergi.v21i1.4193.

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Electrical energy is energy that has an important role for society. A number of ways have been done to meet electricity needs, one way is by using various alternative energy sources. These alternative energy sources include: Water, Wind, and Solar. But water is a cheap and relatively easy source of energy. So we need a tool that is used to convert the water energy into electrical energy, one of which is a turbine. This turbine will utilize the energy of fluid flow into mechanical energy, which will then be converted into electrical energy. In this study, we designed a turgo turbine model using
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23

Pettongkam, Wichai, Wirachai Roynarin, and Decha Intholo. "Investigation of a Pico Turgo Turbine for High-Rise Buildings Using Computational Fluid Dynamics." Journal of Sustainable Development 11, no. 1 (2018): 112. http://dx.doi.org/10.5539/jsd.v11n1p112.

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Thailand is a rapidly developing country, and many high-rise buildings are being constructed to satisfy the demands of the increasing populace. The country is located in tropical South East Asia, which means it experiences abundant rainfall during the rainy season. The design of a hydropower system from a waterfall is re-invented in this study using rainwater flowing from the rooftop of a high-rise building to drive a Pico Turgo Turbine. In the building under study, the rooftop is restructured to receive and store 57.6 m3 of rainwater, which is allowed to flow down through a designed pipe of 2
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Adanta, Dendy, Imam Syofii, DewiPuspita Sari, and Apri Wiyono. "Performance of Pico Scale Turgo Turbine in Difference the Nozzle Diameter." International Journal of Fluid Machinery and Systems 15, no. 1 (2022): 130–36. http://dx.doi.org/10.5293/ijfms.2022.15.1.130.

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Khurana, Sourabh, Varun, and Anoop Kumar. "Effect of silt particles on erosion of Turgo impulse turbine blades." International Journal of Ambient Energy 35, no. 3 (2013): 155–62. http://dx.doi.org/10.1080/01430750.2013.789985.

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Khurana, Sourabh, and Varun Goel. "Effect of jet diameter on erosion of turgo impulse turbine runner." Journal of Mechanical Science and Technology 28, no. 11 (2014): 4539–46. http://dx.doi.org/10.1007/s12206-014-1021-6.

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27

Athaya, Muhammad Faridz, Warjito, Budiarso, Ridho Irwansyah, Muhamad Agil Fadhel, and Muhammad Mizan. "Performance of pico-scale turgo turbine bucket using coconut shells spoons with variations inlet angle and nozzle distance to hydraulic efficiency." Jurnal Teknik Mesin Indonesia 18, no. 1 (2023): 64–69. http://dx.doi.org/10.36289/jtmi.v18i1.429.

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Konferensi Perubahan Iklim (COP26) oleh The United Nations memiliki agenda utama, yakni mengevaluasi COP21, di mana target utama dari COP21 adalah untuk menjaga perubahan suhu global di bawah 2 derajat Celsius (MoEF, 2021). Indonesia telah berkomitmen untuk emisis zero carbon pada 2060, dan target dari energi terbarukan pada 2025 adalah 23%. Potensi energi terbarukan yang dimiliki oleh Indonesia adalah 443 GW [13], tetapi tidak semua energi terbarukan dapat digunakan di beberapa daerah yang memiliki permasalahan pada medan. Turbin picohydro merupakan pilihan yang cocok, karena turbin tersebut
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Syahbana, Zaka, and Rizki Setiadi. "Design of An IOT-Based Voltage and Current Monitoring System and Turbine Performance Analysis In A Micro Hydro Power Plant." Jurnal Inovasi Mesin 7, no. 1 (2025): 52–67. https://doi.org/10.15294/jim.v7i1.23615.

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Microhydro power plants (MHPP) are a potential renewable energy solution for remote areas that have abundant water resources. However, monitoring the performance of MHPP systems in these areas is still a challenge, especially in terms of reliability and energy conversion efficiency. This research aims to design and develop an Internet of Things (IoT)-based monitoring system capable of monitoring real-time voltage and current in MHPs. The system was tested using the Archimedes Screw turbine in a laboratory-based test scale, and a literature study was conducted to compare the effectiveness of se
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Budiarso, Warjito, M. Naufal Lubis, and Dendy Adanta. "Performance of a Low Cost Spoon-Based Turgo Turbine for Pico Hydro Installation." Energy Procedia 156 (January 2019): 447–51. http://dx.doi.org/10.1016/j.egypro.2018.11.087.

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Ebhota*, Williams S,, and Pavel Y. Tabakov. "Simplified and Precise Design of Crossflow Turbine Power Transmission Components." International Journal of Engineering and Advanced Technology 10, no. 3 (2021): 227–32. http://dx.doi.org/10.35940/ijeat.c2136.0210321.

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Despite the merits of small hydropower (SHP), coupled with the perennial inadequate and unreliable electricity supply in SSA, the huge SHP potential in the region is hugely untapped. This is largely attributed to the lack of adequate technical components for the development of SHP turbines, which are: technical personnel, and production facilities in the region. The hydraulic power possessed by flowing water in SHP resources can be harnessed and transformed into usable electrical energy via the deployment of a hydro turbine plant. Commonly used hydro turbines include crossflow (CFT), Pelton, T
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Williams, S. Ebhota, and Y. Tabakov Pavel. "Simplified and Precise Design of Crossflow Turbine Power Transmission Components." International Journal of Engineering and Advanced Technology (IJEAT) 10, no. 3 (2021): 227–32. https://doi.org/10.35940/ijeat.C2136.0210321.

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Despite the merits of small hydropower (SHP), coupled with the perennial inadequate and unreliable electricity supply in SSA, the huge SHP potential in the region is hugely untapped. This is largely attributed to the lack of adequate technical components for the development of SHP turbines, which are: technical personnel, and production facilities in the region. The hydraulic power possessed by flowing water in SHP resources can be harnessed and transformed into usable electrical energy via the deployment of a hydro turbine plant. Commonly used hydro turbines include crossflow (CFT), Pelton, T
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32

Lin, Tzu-Yuan, Chia-Yu Ko, Shih-Jhe Chen, Guo Chung Tsai, and Hsieh-Chen Tsai. "A novel total-flow geothermal power generator using Turgo turbine: Design and field tests." Renewable Energy 186 (March 2022): 562–72. http://dx.doi.org/10.1016/j.renene.2022.01.007.

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Warjito, Warjito, Budiarso Budiarso, Ahmad Indra Siswantara, Dendy Adanta, Mustafa Kamal, and Reza Dianofitra. "Simple Bucket Curvature for Designing a Low-head Turgo Turbine for Pico Hydro Application." International Journal of Technology 8, no. 7 (2017): 1239. http://dx.doi.org/10.14716/ijtech.v8i7.767.

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34

Cobb, Bryan R., and Kendra V. Sharp. "Impulse (Turgo and Pelton) turbine performance characteristics and their impact on pico-hydro installations." Renewable Energy 50 (February 2013): 959–64. http://dx.doi.org/10.1016/j.renene.2012.08.010.

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Budiarso, Dwijaya Febriansyah, Warjito, and Dendy Adanta. "The effect of wheel and nozzle diameter ratio on the performance of a Turgo turbine with pico scale." Energy Reports 6 (February 2020): 601–5. http://dx.doi.org/10.1016/j.egyr.2019.11.125.

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Hary Putra Darma, I. Nyoman, I. Nyoman Budiastra, and I. Wayan Arta Wijaya. "ANALISIS VARIASI TRANSMISI GEAR TERHADAP OUTPUT DAYA LISTRIK PADA PROTOTYPE PEMBANGKIT LISTRIK TENAGA PIKOHIDRO MENGGUNAKAN TURBIN TURGO." Jurnal SPEKTRUM 10, no. 4 (2023): 19. http://dx.doi.org/10.24843/spektrum.2023.v10.i04.p3.

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The design of the Picohydro Power Plant at the Kanto Lampo Waterfall tour was carried out to meet the electricity demand in the form of lighting in the area. Based on a survey that has been conducted, the access road from the parking lot to the waterfall is about 150 meters away and does not yet have adequate lighting. The waterfall has a height of 15 meters, so the design of the PLTPH prototype will use a turgo turbine to maximize the power output of the generator which is distributed to the lighting. This research was conducted to determine the effect of gear variations on rotational speed,
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37

Sari, Rohima, Rudi Hermawan, and Dewi Puspita Sari. "PENGEMBANGAN VIDEO PEMBELAJARAN MEKANIKA TEKNIK BERBASIS CASE METHOD PADA TURBIN TURGO DI PROGRAM STUDI PENDIDIKAN TEKNIK MESIN." EDUTECH 24, no. 2 (2025): 889–900. https://doi.org/10.17509/e.v24i2.83077.

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This study aims to determine the feasibility and practicality of case method-based engineering mechanics course learning videos in the Mechanical Engineering Education Study Program with a focus on the material of moment of force, moment of inertia, and energy with the turgo turbine as a case study. The type of research is RD (Research and Development) research using the 4D development model, namely define, design, development, and dissemination. The product will be validated by material experts with an average of 4.6 which is categorized as very feasible and media experts with an average of 4
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38

Adanta, Dendy, Warjito Warjito, Dwijaya Febriansyah, and Budiarso Budiarso. "Feasibility Analysis of a Pico-Scale Turgo Turbine Bucket using Coconut Shell Spoons for Electricity Generation in Remote Areas in Indonesia." Journal of Advanced Research in Fluid Mechanics and Thermal Sciences 69, no. 1 (2020): 85–97. http://dx.doi.org/10.37934/arfmts.69.1.8597.

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39

Kok, Chiang Liang, Chee Kit Ho, Yit Yan Koh, Wan Xuan Tay, and Tee Hui Teo. "Innovative Energy Sustainable Solutions for Urban Infrastructure: Implementing Micro-Pumped Hydro Storage in Singapore’s Multi-Level Carparks." Applied Sciences 14, no. 17 (2024): 7531. http://dx.doi.org/10.3390/app14177531.

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As part of the initiative to achieve Singapore’s Green Plan 2030, we propose to investigate the potential of utilizing micro-pumped hydroelectric energy storage (PHES) systems in multi-level carparks (MLCP: a stacked car park that has multiple levels, may be enclosed, and can be an independent building) as a more environmentally friendly alternative to traditional battery storage for a surplus of solar energy. This study focuses on an MLCP with a surface area of 3311 m2 and a height of 12 m, considering design constraints such as a floor load capacity of 5 kN/m2 and the requirement for a consi
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40

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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Leto, Angelo. "Investigation of a Radial Turbines Compatibility for Small Rocket Engine." E3S Web of Conferences 197 (2020): 11009. http://dx.doi.org/10.1051/e3sconf/202019711009.

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In the radial turbine preliminary design for an expander rocket engine, a comparison was made with axial turbine used in Pratt & Whitney RL10 engine. One of the primary requirements of a liquid propellant rocket engine is the generation of a high thrust, which depends on both the mass flow rate of the propellant and the pressure in the thrust chamber. In expander-cycle engines, which are the subject of the present study, the liquid propellant is first compressed using centrifugal turbo-pumps, then it is used to cool the combustion chamber and the nozzle and, once vaporized, it flows throug
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42

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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Zhu, Cheng, Weilin Zhuge, and Yangjun Zhang. "Flow Characteristics and Loss Models of the Transonic Radial Turbine." Applied Sciences 12, no. 5 (2022): 2453. http://dx.doi.org/10.3390/app12052453.

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A hydrogen turbo hybrid power system has the significant advantages of zero carbon emissions, high efficiency and high reliability. The need to increase the power density of hydrogen turbo hybrid power systems and improve the adaptability of turbines over a wide range of expansion ratios has encouraged the study of transonic turbines. This paper is aimed at analyzing the flow characteristics and developing the loss models of a transonic turbine. The main losses for a subsonic radial turbine are usually divided into four parts: incidence loss, passage loss, tip clearance loss and trailing edge
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Passar, Andrey V., D. V. Tymoshenko, and E. V. Faleeva. "Application of a New Design and Calculation Technology for Improving the Blading Section of the Engine with Turbine Supercharger." Defect and Diffusion Forum 392 (April 2019): 239–52. http://dx.doi.org/10.4028/www.scientific.net/ddf.392.239.

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The existing methods of design and calculating the gas-dynamic characteristics of turbo-machines do not allow an accurate computation of parameters of a turbo compressor unit as part of a compound internal-combustion engine. The evaluation of a new design and estimation method for the blading section of the turbine of the turbocharged engine was carried out in this paper. The developed technology was used to design impellers for radial-axial turbines of a turbocharged engine operating in various modes. The features of these turbines are presented in the steady and unsteady stream. As a result
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Adithya, K., R. Girimurugan, M. Vairavel, et al. "Structural and Thermal Research of Steam Turbine Blades by Finite Element Method." International Journal of Innovative Technology and Exploring Engineering 9, no. 5 (2020): 2275–78. http://dx.doi.org/10.35940/ijitee.e2495.039520.

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In most modern years, the dimensions and materials of the blades of steam turbines have increased by raising the power of steam turbines. In preference to the wide-ranging application of turbo machinery and constant improvement of steam turbine blade materials and design techniques, steam turbine blade design and material behavior study technology have turned out to be a significant following in the line of investigation field. The optimized design and material behavior are the most significant factors limiting the efficiency of steam turbines, which is associated with the operating effectiven
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Szczepankowski, Andrzej, Janusz Szymczak, and Jaroslaw Spychała. "Operating Degradations of Air Turbine Scoops of Turbo-Engines." Solid State Phenomena 147-149 (January 2009): 524–29. http://dx.doi.org/10.4028/www.scientific.net/ssp.147-149.524.

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The paper presents various types of turbine scoops damages that are being found in the operating process of air turbine engines (TSO). When dividing them, having in mind a genesis of their origin, a special attention has been paid to corrosion and high-temperature erosion, often being a reason for destruction of the entire unit. The damages hereto described have been illustrated with examples collected during endoscope surveys of TSO internal spaces or their post-failure disassembly. The summary points out to the ways and directions of works aiming at early detection of TSO turbines units dama
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Burghardt, Andrzej, Krzysztof Kurc, and Dariusz Szybicki. "Robotic Automation of the Turbo-Propeller Engine Blade Grinding Process." Applied Mechanics and Materials 817 (January 2016): 206–13. http://dx.doi.org/10.4028/www.scientific.net/amm.817.206.

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Robotic automation of industrial processes in terms of the adaptation of the robot path to changing external conditions has recently been one of the main subjects of research and implementation studies. The presented study involved trailing plane grinding the turbine blades. The suggested automated station comprises an IRB 140 robot handling the processed element, grinding tool and an IRB 1600 robot with a 3D scanning head installed. The presented robotic automation solutions may be used for finishing operations on blades constituting elements of aircraft engines, power generating turbines and
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Prabowo, Guntur Mukti, Effendi Effendi, Rosna yuherlina Siahaan, and P. Dwikora Simanjuntak. "Upaya Meningkatan Kinerja Turbo Charger Pada Auxiliary Engine Untuk Kelancaran Operasional Dikapal MV. Chandra Kirana." Meteor STIP Marunda 15, no. 2 (2022): 414–50. http://dx.doi.org/10.36101/msm.v15i2.252.

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Kapal laut sebagai alat transportasi laut dalam perkembangan perekonomian suatu negara sangatlah besar, transportasi laut sebagai sarana export import suatu negara merupakan pendorong kegiatan perdagangannya. Turbocharger atau Turbine wheel sebagai bagian penting dari mesin kapal harus selalu diperhatikan jam kerjanya. Turbine wheel yang melebihi jam kerja akan menyebabkan kerusakan seperti pecahnya sudu-sudu pada turbine tersebut juga untuk menghindari terjadinya penumpukan kotoran maka harus dilakukan perawatan dry cleaning dan wet cleaning pada bagian turbin side.
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49

Patel, Brijesh, Kalpit P. Kaurase, and Anil M. Bisen. "Thermo Mechanical Fatigue Testing of GTD 111 Superalloy for Use in Gas Turbine Blades." Materials Science Forum 830-831 (September 2015): 211–14. http://dx.doi.org/10.4028/www.scientific.net/msf.830-831.211.

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Design of Turbo machinery is complex and efficiency is directly related to material performance, material selection is of prime importance. Temperature limitations are the most crucial limiting factors to gas turbine efficiencies. This paper presents the life of GTD 111 applied to gas turbine blade based on LCF and TMF test results. The LCF tests were conducted under various strain ranges based on gas turbine operating conditions. In addition, IP (in-phase) and OP (out of-phase) TMF tests were conducted under various strain ranges. The paper will focus light on above issues and each plays an i
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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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