This blender series have the characteristics of universal round plate turbine blender.The difference is the change of the leave's section shape,as to increase the pump transferring capability of the blender,improve the performance of dispersion and media.The operation condition is the same with the universal round plate turbine blender. Flow state:The flat blade impeller and curved blade impeller are radial flow.When there is baffle,the upper and down circulating flows can be formed from the blade boundary.The opposite pitched subsidiary blade impeller has an axial shunt.The capacity mixing of liquid above and below the disc is worse than the open turbine impeller.
Turbine blade Steam turbine blades for all oem model turbines. Gas turbine compressor blades, compressor vanes, inlet guide vanes (vigv, igv). Ge, general electric siemens, westinghouse, fiat, pratt & whitney, mitsubishi, alstom, mhi, fuji, toshiba, shin nippon, fiat, coppus, murray, franco tossi, terry, dresser rand, delaval, allen, peter brotherhood, english electric, abb, bbc, aeg kanis, sulzer, ansaldo, fincantieri, nuovo pignone, kkk, nadrowski. Various
Rated Power : 30KW Shaft Power : 34.5KW Rated Wind Speed : 10m/s Cut-in Wind speed : 3m/s Cut-out Wind speed : 25m/s Max Cp : 0.48 Rotor Diameter : 12m Blade Length : 5.58m Tip Chord : 230mm Max Chord : 783mm Material : FRP Weight(Kg/pcs) : 112 Direction : Clockwise Orientation : Upwind Configuration : Horizontal Survival Speed : 52.5m/s Standard : AWEA/IEC Design Life : 20years Bolt Circle Dia : 248mm
Rated Power : 50KW Shaft Power : 55KW Rated Wind Speed : 10.5m/s Cut-in Wind speed : 3m/s Cut-out Wind speed : 25m/s Max Cp : 0.45. Rotor Diameter : 15.2m Blade Length : 7.2m Tip Chord : 289mm Max Chord : 979mm Material : FRP Weight(Kg/pcs) : 208. Direction : Clockwise Orientation : Upwind Configuration : Horizontal Survival Speed : 52.5m/s Standard : AWEA/IEC Design Life : 20years Bolt Circle Dia : 434mm.
Rated Power : 100KW Shaft Power : 120KW Rated Wind Speed : 12m/s Cut-in Wind speed : 3m/s Cut-out Wind speed : 25m/s Max Cp : 0.43 Rotor Diameter : 19.1m Blade Length : 9.2m Tip Chord : 120mm Max Chord : 1070mm Material : FRP Weight(Kg/pcs) : 278 Direction : Clockwise Orientation : Upwind Configuration : Horizontal Survival Speed : 52.5m/s Standard : AWEA/IEC Design Life : 20years Bolt Circle Dia : 360mm.
Rated Power : 10KW Shaft Power : 11KW Rated Wind Speed : 10m/s Cut-in Wind speed : 2m/s Cut-out Wind speed : 25m/s Max Cp : 0.46 Rotor Diameter : 8m Blade Length : 3.9m Tip Chord : 250mm Max Chord : 397mm Material : FRP Weight(Kg/pcs) : 25.5. Direction : Clockwise Orientation : Upwind Configuration : Horizontal Survival Speed : 52.5m/s Standard : AWEA/IEC Design Life : 20years Root Joint : 6-M12.
Rated Power : 5KW Shaft Power : 6KW Rated Wind Speed : 10m/s Cut-in Wind speed : 2m/s Cut-out Wind speed : 25m/s Max Cp : 0.46. Rotor Diameter : 6.4m Blade Length : 3.1m Tip Chord : 255mm Max Chord : 360mm Material : FRP Weight(Kg/pcs) : 19.5. Direction : Clockwise Orientation : Upwind Configuration : Horizontal Survival Speed : 52.5m/s Standard : AWEA/IEC Design Life : 20years Root Joint : 6-M12.
Steel castings, sgi/ductile iron, grey iron, investment castings, ferrous & non ferrous castings, high pressure die castings, opening impeller, suction impeller, diffuser, casings, turbine casings, compressor castings, industrial pump and valve castings, marine castings, propeller, duplex steel castings and steel forgings, copper cathode.Quality assurance, logistics and after sales services.
Custom made turbine blade for steam turbine and gas turbine compressor. Non-OEM where quality and pricing offers a good deal.
Aluminum blades are durable, strong and not afraid of any external influences. At the same time, they are heavier than plastic ones and require careful wheel balancing.
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The Axial turbine is for low head power plants. Water flows axially into and out of the turbine. Axial flow turbines fall into two categories, fixed blade runner and variable pitch runner, also known as a Kaplan turbine. Fixed blade turbines are very well suited to low head power plants with limited variation in head and load. Its main advantage is its simple design. When operated at fixed speed, maximum efficiency is achieved at the design head and water flow. Kaplan turbines are used for medium to large power stations where there are large variations in the head, water flow and load. Its main advantage is its ability to adapt to variable conditions with a high efficiency. The variable pitch runner is mechanically more complex than a fixed pitch runner. Axial flow turbines can be supplied for a head of 2m to 70 m. The runner diameter is available from 0.6 m to 5 m. Power capacity is from 55 kW to 50 MW.
The tubular turbine is an axial flow turbine, in a straight or S-shaped configuration. A Tubular Turbine can be supplied for a head of 2 m to 30 m. The runner diameter is available from 0.8 m to 5.6 m. Power capacity is from 250 kW to 15 MW. This turbine has high efficiency and lower constructon cost.
Pelton turbine The runner has bucket shaped blades on the periphery. The jet of water is tangential to the runner. The characteristics are, high head applications, a simple design, few problems with cavitation, highly cost effective. Pelton turbines can be supplied for a head of 100m to 500 m. The runner diameter is available from 0.55 m to 1.5 m. Power capacity is from 200 kW to 10 MW. Inclined jet turbine: The water flows into and out of the runner at an angle to the main shaft. The characteristics are high efficiency over a wide range of water flow, more flexible installation options, somewhat more complex than a Pelton turbine. Inclined jet turbines can be supplied for a head of 60m to 300 m. The runner diameter is available from 0.32 m to 0.8 m. Power capacity is from 55 kW to 6.3 MW.
In a Francis turbine, the water flows radially into the turbine and axially out of the runner. The Francis turbine, invented by an American engineer in 1849, is the most widely deployed modern turbine. The main characteristics of the Francis turbine are - a wide range of water head, simple and reliable structure, and high efficiency. A Francis Turbine can be supplied for a head of 15 m to 250 m. The runner diameter is available from 0.4 m to 4.5 m. Power capacity is from 75 kW to 50 MW. New style francis turbine, compared to the old one, it has the advantages of convenient installation, high efficiency, low noise and compact structure.
Impellers, wind turbine AMC.
Haynes HR120 is a nickel-based alloy with excellent high-temperature strength, good resistance to oxidation and thermal fatigue, and excellent creep resistance. It is typically used in gas turbine engine components, such as turbine blades and vanes, as well as in industrial furnace applications. Haynes HR120 offers excellent high-temperature strength, with a minimum yield strength of 830 MPa and a minimum tensile strength of 980 MPa. It also has good ductility, with a minimum elongation of 14%. In addition, it has excellent creep resistance, with a rupture life of up to 20,000 hours at 760�°C. Haynes HR120 also has good resistance to oxidation and thermal fatigue, which makes it suitable for use in gas turbine engine components that are exposed to high-temperature and corrosive environments. It has a maximum HB hardness of 290 and excellent fatigue strength at high temperatures. Haynes HR120 is typically available in the form of sheet, plate, bar, and wire. It can be machined using conventional methods and is weldable using standard welding techniques. Overall, Haynes HR120 is a high-strength, high-temperature alloy with excellent resistance to oxidation and thermal fatigue, making it ideal for use in gas turbine engine components and industrial furnace applications where high-temperature and corrosive conditions are present. Here are the international standards for Haynes HR120 alloy: USA: AMS 5538, AMS 5794, AMS 5795, AMS 5798, AMS 5859, AMS 5860, AMS 5936, AMS 5937, AMS 5960, AMS 5961, AMS 5977, AMS 5978, AMS 5979, AMS 5980, AMS 5981, AMS 5990, AMS 5991, ASTM B435, ASTM B582, UNS N08120 Europe: EN 2.4869 Germany: DIN 17742 UK: BS HR 206 Japan: JIS NW 6888 We can provide the following the form:Haynes HR120 coil; HaynesHR120 strip;Haynes HR120 plate; Haynes HR120 sheets; Haynes HR120 tube; Haynes HR120 pipe;Haynes HR120 flat; Haynes HR120 bar GB/JIS/UNS:N08120/W.Nr Haynes HR120 is a high-strength, high-temperature alloy that is commonly used in gas turbine engine components and industrial furnace applications where high-temperature and corrosive environments are present. It offers excellent high-temperature strength, good ductility, and excellent creep resistance. The following are some of the specific applications of Haynes HR120: Gas turbine engine components: Haynes HR120 is often used in the manufacture of turbine blades, vanes, and other components in gas turbine engines. Its high-temperature strength, excellent creep resistance, and resistance to thermal fatigue make it ideal for use in this application.
Haynes 242 is a nickel-chromium-molybdenum alloy with excellent high-temperature strength, good oxidation resistance, and resistance to hot corrosion and thermal fatigue. It is typically used in gas turbine engine components, such as turbine blades, vanes, and combustor liners, as well as in industrial furnace applications. Haynes 242 offers excellent high-temperature strength, with a minimum yield strength of 880 MPa and a minimum tensile strength of 1100 MPa. It also has good ductility, with a minimum elongation of 12%. In addition, it has good thermal stability and resistance to thermal fatigue, making it suitable for use in high-temperature applications. Haynes 242 also has good resistance to oxidation and hot corrosion, which makes it suitable for use in gas turbine engine components that are exposed to high-temperature and corrosive environments. It has a maximum HB hardness of 300 and excellent fatigue strength at high temperatures. Haynes 242 is typically available in the form of sheet, plate, bar, and wire. It can be machined using conventional methods and is weldable using standard welding techniques. Overall, Haynes 242 is a high-strength, high-temperature alloy with excellent resistance to oxidation and hot corrosion, making it ideal for use in gas turbine engine components and industrial furnace applications. Here are the national standards for Haynes 242 alloy: United States: AMS 5708, AMS 5776, AMS 5777, AMS 5853, AMS 5854, AMS 5857, AMS 5858, AMS 5895, AMS 5896, AMS 5897, AMS 5898, AMS 5965, AMS 5966, AMS 5967, AMS 5968, AMS 5969, AMS 5970, AMS 5971, AMS 5972, AMS 5973, AMS 5974, AMS 5975, AMS 5976, AMS 5977, AMS 5978, AMS 5979, AMS 5980, AMS 5981, ASTM B435, ASTM B572, UNS R30556 Europe: EN 2.4683 Germany: DIN 17743, VdTÃ??V 435 United Kingdom: BS HR 202, BS HR 501, BS HR 502 Japan: JIS NW 6242 We can provide the following the form:Haynes 242 coil; Haynes242 strip;Haynes 242 plate; Haynes 242 sheets; Haynes 242 tube; Haynes 242 pipe;Haynes 242 flat; Haynes 242 bar GB/JIS:NW 625/UNS:N10242/W.Nr:2.4683 Haynes 242 is typically used in gas turbine engine components, such as turbine blades, vanes, and combustor liners. It is also used in industrial furnace applications, including muffles, retorts, and heat treating fixtures. The high-temperature strength and excellent resistance to oxidation and hot corrosion make Haynes 242 an ideal material for use in high-temperature and corrosive environments. It is commonly used in aerospace, power generation, and industrial applications where high-temperature and corrosive conditions are present.
Haynes 25, also known as L-605 alloy, is a high-temperature, high-strength, and highly corrosion-resistant superalloy. It is developed and produced by Haynes International, Inc. in the United States and is typically used in high-temperature, high-pressure, and highly corrosive environments. The main components of Haynes 25 alloy are cobalt, chromium, molybdenum, iron, and tungsten, with cobalt content exceeding 50%. This gives it better high-temperature strength and corrosion resistance than other nickel-based alloys. The alloy also has excellent high-temperature oxidation and thermal corrosion resistance, can be used in high-temperature environments up to 1200â??, and has good machinability and weldability. Here are the Haynes 25 alloy's various country standards in English: US: AMS 5537, AMS 5796, AMS 5797, AMS 5800, AMS 5801, AMS 5803, AMS 5876, AMS 5894, ASTM B424, ASTM B425, UNS R30605 Europe: EN 2.4964 Germany: DIN 17744, VdT�?V 424 France: AFNOR NC 22 K, AIR 9165 UK: BS HR 5, BS HR 504, BS HR 505 Japan: JIS NW6025 We can provide the following the form:Haynes 25 coil; Haynes 25 strip;Haynes 25 plate; Haynes 25 sheets; Haynes 25 tube; Haynes 25 pipe;Haynes 25 flat; Haynes 25 bar GB/JIS:NW alloy L-605/UNS:R30605/W.Nr:2.4964 Haynes 25 alloy has a wide range of applications in various industries due to its excellent high-temperature strength, corrosion resistance, and oxidation resistance. It is commonly used in gas turbine engine components, such as combustor liners, turbine blades, and afterburner parts. It is also used in the aerospace industry for hot section components, including heat shields, jet engine exhaust systems, and rocket motor components. In addition, Haynes 25 alloy finds use in chemical and petrochemical processing, where it is utilized for equipment such as reactors, distillation columns, and heat exchangers. It is also employed in high-temperature furnace components, such as muffles, retorts, and flame shields.
Haynes 188 is a high-temperature, high-strength, and high-corrosion-resistant superalloy developed and produced by Haynes International in the United States. It is typically used in high-temperature, high-pressure, and corrosive environments. Haynes 188 alloy is renowned for its outstanding high-temperature strength and excellent corrosion resistance. The main components of Haynes 188 alloy include nickel, chromium, molybdenum, iron, titanium, aluminum, and tantalum. The combination of these elements gives Haynes 188 extremely high heat resistance and corrosion resistance. It can be used at temperatures as high as 1095 and has excellent oxidation and thermal corrosion resistance. Additionally, Haynes 188 has good machinability, weldability, and castability, making it suitable for manufacturing components of various shapes and sizes. The following are the international standards for Haynes 188 alloy: United States: AMS 5608, AMS 5772, AMS 5801, AMS 5796, AMS 5797, AMS 5800, AMS 5879, AMS 6925, AMS 5803, AMS 5596, AMS 5708, AMS 5804, AMS 5806, AMS 5799, AMS 5836, AMS 5875, AMS 5954, ASTM B574, ASTM B574M, ASTM B435, ASTM B582, UNS R30188 Europe: EN 2.4683, EN 2.4684, EN 2.4694 Germany: DIN 17743 France: AFNOR Z 20 CNDT 35.20, AIR 9165 United Kingdom: BS HR 203, BS HR 504, BS HR 505 Japan: JIS NW 5886 We can provide the following the form:Haynes 188 coil; Haynes 188 strip;Haynes 188 plate; Haynes 188 sheets; Haynes 188 tube; Haynes 188 pipe;Haynes 188 flat; Haynes 188 bar GB:GH5188/JIS:NW 6190/UNS:R30188/W.Nr:2.4683 Haynes 188 is primarily used in aerospace, petrochemical, chemical, energy, and marine fields. In aerospace, Haynes 188 is commonly used to manufacture components such as turbine blades, combustors, and nozzles in turbine engines. In petrochemical, chemical, and energy fields, Haynes 188 is often used to manufacture petrochemical reactors, catalyst carriers, high-temperature pipelines, corrosion-resistant coatings, and oil extraction equipment. In the marine industry, Haynes 188 is commonly used to manufacture components in marine environments such as propellers and bearings. Overall, Haynes 188 alloy has excellent high-temperature, high-strength, and high-corrosion resistance properties and is widely used in various industrial fields. It is an important superalloy material.