
The Kaplan Hydro Turbine is designed to operate in water head ranges of 2m to 25m, making it suitable for low water head hydroelectric power generation applications. It is a versatile hydro turbine that can be used in small-scale and large-scale hydroelectric power projects alike.
The guide vanes of the Kaplan Hydro Turbine are made of high-quality ZG20SiMn material, which offers excellent durability and resistance to corrosion. The blade of the turbine is made of premium-grade stainless steel 0Cr13Ni4Mo, which provides superior strength and performance.
The Kaplan Hydro Turbine is designed to operate at low water head project, making it ideal for use in industrial and commercial power generation projects. It is a reliable and efficient hydro turbine that can help reduce energy costs and improve the overall efficiency of power generation systems.
Overall, the Kaplan Hydro Turbine is an excellent choice for those looking for a reliable and efficient hydroelectric power generation solution for low water head power plant. Its adjustable blade design and control system make it a versatile option for a wide range of applications, while its high-quality construction materials ensure durability and long-lasting performance.
Technical Parameter | Description |
---|---|
Product Name | Kaplan Hydro Turbine |
Turbine Type | Kaplan Turbine with double adjustable |
Water Head | 2m-25m |
Blade Material | Stainless Steel 0Cr13Ni4Mo |
Capacity Of Alternator | 100KW To 10000KW |
Runner Blade Angle | 15° - 30° |
Hub Material | Carbon Steel |
Runner Diameter | Below 2m |
Distributor | Carbon Steel |
Brake Mode | Oil Braking (with Flywheel) |
Guide Vanes Material | ZG20SiMn |
Control System | Hydraulic double adjustable Governor |
Turbine Design | Vertical Shaft Hydro Turbine |
One of the most common application scenarios for the Kaplan turbine is in large-scale hydropower stations with water heads between 2m to 25m. The Kaplan turbine's pitch controlled design allows it to efficiently convert the kinetic energy of the water into mechanical energy to drive generators, making it ideal for such applications. The turbine's carbon steel housing and hub material ensures durability and long-lasting performance.
In addition to large-scale hydropower stations, the Kaplan turbine can also be used in small and medium-sized hydropower stations. Its compact design and high efficiency make it an excellent choice for sites with limited space or water resources. The turbine's electronic controller provides precise control over the turbine's operation, ensuring maximum power output under various operating conditions.
Another application scenario for the Kaplan turbine is in irrigation systems. The turbine can be used to generate electricity while simultaneously pumping water for irrigation purposes. This dual-use design makes the Kaplan turbine a cost-effective solution for farmers and agricultural businesses.
The HYDROTU Kaplan turbine, manufactured in China, is a reliable and efficient product suitable for a wide range of application occasions and scenarios. Its high efficiency, carbon steel housing, pitch controlled design, and electronic controller make it an ideal choice for hydropower generation in large-scale, small and medium-sized hydropower stations, as well as irrigation systems. Its use of renewable energy sources makes it an environmentally friendly choice for power generation.
Our Propeller Type Hydro Turbine, also known as a Kaplan Hydroelectric Unit, is designed for efficiency and durability. With our customization services, you can tailor your Kaplan Hydro Turbine to fit your unique needs and specifications. Contact us today to learn more about our customization options.
Hangzhou Hydrotu Engineering Co.,Ltd.
HYDROTU are the complete Chinese hydropower equipment provider, consulting and engineering design venture in the field of hydropower equipment. We provide the high quality Chinese hydropower equipment with advanced technologies and integrated services to meet the global hydropower markets.
Hangzhou HydroTu Engineering Co. Ltd covers the services, complete equipment supply, economic solution of the global hydropower projects and aims to be one of the best global supplier of hydropower equipment as well as the best integrated services provider on the hydropower markets.
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Main Reference List of Hydropower Project worldwide By Hydrotu
(V-vertical; H-Horizontal; D1-diameter; Hr- water head; Qr- rated flow; n-Speed)
Country | Project Name | Turbine Type | Project parameter | Operation Year | Supplier |
Turkey | KOZAK 2x2200KW | V-Kaplan D1=130cm | Hr=23.0m, Qr=11m3/s, n=500rpm | 2007 | Hydrotu |
Turkey | TAYFUN 2x500KW | H-Francis D1=53cm | Hr=55.0m, Qr=1.05m3/s n=1000rpm | 2007 | Hydrotu |
Turkey | GUNESLI 1200KW+600KW | H=Francis D1=60cm+53cm | Hr=65.0cm, Qr=2.2+1.1m3/s n=1000rpm | 2007 | Hydrotu |
Canada | KLEMTU 1x1800KW | H-Pelton D1=82cm | Hr=310m,Qr=0.66m3/s n=900rpm | 2007 | Hydrotu |
Turkey | GEMKOPRU 2x820KW | H-Francis D1=61cm | Hr=87.0m, Qr=1.12m3/s, n=1000rpm | 2008 | Hydrotu |
Turkey | UCKAYA 800KW+320KW | H-Francis &H-Turgo | Hr=107.6,Qr=0.8+0.36m3/s n=1000rpm | 2008 | Hydrotu |
Turkey | KOYABASI 750KW+320KW | H-Francis D1=60+50cm | Hr=80.0cm,Qr=1.13+0.487m3/s n=1000rpm | 2008.1 | Hydrotu |
Turkey | EGE-1 2X460KW | H-Francis D1=65cm | Hr=21.7m,Qr=2.52m3/s, n=600rpm | 2008.3 | Hydrotu |
Turkey | YILDIZLI 2X600KW | H-Francis D1=51cm | Hr=44.0cm,Qr=1.65m3/s, n=1000rpm | 2008.3 | Hydrotu |
Turkey | KAHRAMAN 2x750KW | H=Turgo D1=60cm | Hr=187.2m,Qr=0.503m3/s n=1000rpm | 2008.4 | Hydrotu |
Turkey | TIMARLI 3x2400KW | V-Kaplan D1=225cm | Hr=10.5m,Qr=26.67m3/s, n=750rpm | 2008.10 | Hydrotu |
Serbia | GORNE GARE 2X1100KW | H-Francis D1=56cm | Hr=63.5m,Qr=2.05m3/s, n=1000rpm | 2008.10 | Hydrotu |
Serbai | TEGOSNICA 410KW+250KW | V-Propeller D1=74cm | Hr=15.9m,Qr=3.1+1.9m3/s n=750rpm | 2008.10 | Hydrotu |
Serbia | LIVADE 1x450KW | H-Turgo D1=60cm | Hr=257.0m,Qr=0.21m3/s, n=1000rpm | 2008.10 | Hydrotu |
Turkey | GOK 3x3500KW | V-Propeller D1=160cm | Hr=28.7m,Qr=14.0m3/s, n=428.6rpm | 2009.6 | Hydrotu |
Turkey | Poyraz 2x1650KW | H-Francis D1=60cm | Hr=76.0m,Qr=2.535m3/s n=1000rpm | 2009.6 | Hydrotu |
Turkey | Kozan 2x1980KW | H-Francis D1=76cm | Hr=57.24m,Qr=4.0m3/s, n=750rpm | 2009.6 | Hydrotu |
Bosinia | Kuslat 2x600KW | V-Kaplan D1=140cm | Hr=8.0m,Qr=2x8.85m3/s, n=300rpm | 2009.7 | Hydrotu |
Turkey | KORUKOY HES 1x3000KW | H-Pelton D1=95cm | Hr=320m, Qr=1.1m3/s, n=750rpm | 2009.11 | Hydrotu |
Turkey | EGE-3 2x630KW | H-Francis D1=76cm | Hr=21.409m,Qr=2x3.35m3/s, n=500rpm | 2010.1 | Hydrotu |
Turkey | EGE-4 2X940KW | H=Francis D1=68cm | Hr=32.354m,Qr=2x3.6m3/s, n=500rpm | 2010.1 | Hydrotu |
Turkey | BIZNA 3X8500KW | V-Francis D1=145cm | Hr=56.5m,Qr=3x16.957m3/s n=428.6rpm | 2010.7 | Hydrotu |
Turkey | Bingol 2x3200KW+2x600KW | H-Francis D1=92.5+52cm | Hr=55.31m,Qr=2x6.7m3/s+2x 1.3m3/s,n=600+1000rpm | 2010.3 | Hydrotu |
Turkey | Tugra-1 2x2800KW | H-Pelton D1=82cm | Hr=411.728m,Qr=2x0.75m3/s n=1000rpm | 2010.5 | Hydrotu |
Turkey | EGER 2X960KW | H-Francis D1=84cm | Hr=24.62m,Qr=2x4.5m3/s n=500rpm | 2010.8 | Hydrotu |
Turkey | TONYA 2x1320KW | H-Pelton D1=90cm | Hr=182m,Qr=2x0.862m3/s n=600rpm | 2010.9 | Hydrotu |
Turkey | DEREBASI 2x5300KW | H-Pelton D1=140cm | Hr=425.6m,Qr=2x1.5m3/s n=600rpm | 2011.2 | Hydrotu |
Turkey | KILINCLI-1 2x970KW | H-Francis D1=82cm | Hr=26.8m,Qr=2x4.2m3/s, n=500rpm | 2011.2 | Hydrotu |
Turkey | MINI 50KW | V-Propeller D1=25cm | Hr=20m,Qr=0.35m3/s n=1000rpm | 2011.3 | Hydrotu |
Serbia | DONJE GARE 2x1000KW+500KW | H-Francis D1=59.5+52.5cm | Hr=77.7m,Qr=2x1.627m3/s+0.796 m3/s,n=1000rpm | 2011.4 | Hydrotu |
Serbia | KALIDRA 700KW | H-Turgo D1=60cm | Hr=204.5m,Qr=0.43m3/s n=1000rpm | 2011.4 | Hydrotu |
Turkey | TURUNCOVE 2X307KW | H-Francis D1=53cm | Hr=22.35m,Qr=2x1.65m3/s, n=750rpm | 2011.12 | Hydrotu |
France | 1x520KW | H-Turgo D1=53cm | Hr=110m,Qr=0.6m3/s n=750rpm | 2011.12 | Hydrotu |
Turkey | YAKNICA HEPP 3x4380KW | V-Kaplan D1=160cm | Hr=29.15m,Qr=3x17.2m3/s n=428.6rpm | 2012.6 | Hydrotu |
Turkey | ASYA HEPP 2x342KW | H-Francis D1=60.5cm | Hr=20.3m,Qr=2x2m3/s, n=600rpm | 2012.7 | Hydrotu |
SriLANKA | NAYA GANGA 2x1600KW | H-Pelton D1=120cm | Hr=155m,Qr=2x1.25m3/s n=428.6rpm | 2012.7 | Hydrotu |
Turkey | AKHAN-2 3x5.4MW | V-Francis D1=95cm | Hr=101.34m,Qr=2x1.4m3/s n=750rpm | 2013.4 | Hydrotu |
Turkey | Turga-2 2x6400KW | H-Pelton D1=123cm | Hr=529.0m,Qr=2x1.4m3/s n=750rpm | 2013.1 | Hydrotu |
Tajikistan | VANJ 2x400KW | H-Francis D1=55cm | Hr=20.0m,Qr=2x2.391m3/s n=600rpm | 2012.8 | Hydrotu |
USA | South Fork 2x650KW | H-Turgo D1=55cm | Hr=110.5m,Qr=2x0.708m3/s, n=720rpm | 2012.8 | Hydrotu |
Turkey | Sofular HES 2x1820KW | H-Francis D1=77cm | Hr=42.46m,Qr=2x4.95m3/s n=750rpm | 2013.6 | Hydrotu |
USA | McRoberts Creek 1x240KW | H-Turgo D1=50cm | Hr=134m,Qr=0.218m3/s n=1000rpm | 2013.8 | Hydrotu |
Greece | Lykostomo 1x420KW | H-Turgo D1=50cm | Hr=104m,Qr=0.5m3/s n=750rpm | 2014-04 | Hydrotu |
Turkey | Hizir HEPP 1x2000KW | H-Pelton D1=120cm | Hr=170m,Qr=1.41m3/s n=428.6rpm | 2014-03 | Hydrotu
|
Italy | Runner 100KW | H-Pelton D1=52.7cm | Hr=97m, Qr=0.14m3/s n=750rpm | 2014-04 | Hydrotu |
Albania | Saranta 1x700KW+1400KW | H-Francis + Turgo D1=61cm+63cm | Hr=100.0m, Qr=1.65m3/s+0.85m3/s n=1000rpm+600rpm | 2014-11 | Hydrotu |
Canada | Snowshoe 2x700KW | H-Turgo | Hr=115m, Qr=2x0.8m3/s n=720rpm | 2015-03 | Hydrotu |
Italy | Runner 250KW | H-Pelton D1=56cm | Hr=206.48m,Qr=0.14m3/s n=1000rpm | 2014-12 | Hydrotu |
Turkey | Ahmetli 2x5090KW+1600KW | H-Francis D1=115+72cm | Hr=53.76m,Qr=2x10.78+1x3.44m3/s, n=500rpm+750rpm | 2015-05 | Hydrotu |
Turkey | Generji 2x2600KW | H-Francis D1=76cm | Hr=149.46m,Qr=2x1.75m3/s, n=1000rpm | 2015-06 | Hydrotu |
Turkey | SMS-2 1x790KW | H-Francis D1=60cm | Hr=92.0m,Qr=1x1.0m3/s, n=1000rpm | 2015-03 | Hydrotu |
Pakistan | 370KW+420KW | H-Turgo D1=42cm+50cm | Hr=120m+136m, Qr=0.4m3/s+0.4m3/s, n=1000rpm | 2015-05 | Hydrotu |
Serbia | MHE Jelici 1x600KW+1x386KW | H-Franics+H-Turgo D1=58cm+55cm | Hr=80m, Qr=0.877m3/s+0.623m3/s, n=1000rpm+600rpm | 2016-06 | Hydrotu |
South Africa | Romans Bay Sea Farm 1x360KW | H-Francis D1=63cm | Hr=22.0m, Qr=2.0m3/s n=600rpm | 2016-07 | Hydrotu |
Serbia | MHE Virovci 1x305KW | H-Turgo D1=55cm | Hr=80m, Qr=0.5m3/s, n=600rpm | 2016-07 | Hydrotu |
Armenia | 1x2300KW | H-Francis D1=96cm | Hr=140.0m, Qr=1.787m3/s n=750rpm | 2016-08 | Hydrotu |
Turkey | Yakinca 4# 1x6016KW | L-Francis D1=185cm | Hr=31.0m, Qr=21.9m3/s n=250rpm | 2016-12 | Hydrotu |