Supplier: Micro-hydro cross flow turbines and plc /elc and grid synchronising units
Services: Taking the contracts for making the complet hydro-electric power house up-to 1 mega watt
Buyer: Components related the above.. And hydro-turbines
Supplier: Hydro turbine, water turbine, francis turbine, kaplan turbine, s type turbine, pit turbine, pelton turbine, incline turbine, turgo turbine, cross flow turbine, bulb bype turbine, horizontal turbine, vertical turbine
Water flow monitor LJZ-2 turbine parts Selection of advanced technology, absolutely first-class service quality, YOYIK over the years to the same faith. The main technical backbone are retired senior engineer, senior mechanic. Many of them have participated in the planning, production and installation of power stations such as Gezhouba, Ertan and Three Gorges, and provided high-quality equipment selection, construction planning, installation and dispensing of hundreds of hydropower stations and overhaul of thermal power plants. , After-sales service and other train services. Yoyik can offer many spare parts for power plants as below: #DF-Water flow monitor LJZ-2 turbine parts-DF Integrator Analog Input Board 421400688 Bolt electric heating rod ZJ-20-25 Eddy Current Signal Converter CON021/914-080 Speed sensor CS-1G-G-080-05-00 240v pressure switch BPSN4KB25XFSP12 Eddy Current Sensor PR6424/004-010 Speed sensor CS-1G-D-100-03-01 LVDT Sensor HBTD-6-800 Sensor DF310580-50-07-00 optical tachometer sensor SZCB-01 Casing Expansion Monitor DF9032 Max A Heat Expansion Transducer TD-2, RANGE: 50mm Power unit FDPC75C3-B linear differential sensor (Linear variable differential transformer) của van MSV 1000TD Equivalent Expanda Cable Coil for soot blower IK-530EL LVDT Sensor HY-6-100-15-D Heating rod DJ-18 Inverter AAD03020DKT01 Pressure relief valve YSF16-70/130KKJ tws proximity sensor CWY-DO-810800-50-09-02-01 linear sensor TDZ-1B-05 electromechanical pressure switch BPSN4KB25XFSP19 linear position control HL-3-250-15 Speed sensor CS-1G-D-065-02-00 Heat Expansion Sensor & Transmitter TD-2 0-50mm Switch 162F1300 Speed sensor CS-1G-G-080-03-01 Anti-interference relay UEG/F-8DPDT POSITIONER VALVE V18345-1010521001 INTERFACE BOARD EPSUPER-JKB-090214-A Speed probe CS-3F-M16 Bolt electric heating rod ZJ-22-5 Limit Switch WLGCA2-2-TH LVDT Sensor TD-1-0300-15-01 Bolt electric heating rod ZJ-20-39A Solenoid Valve 2W-160-15 Water flow monitor LJZ-2 turbine parts Water flow monitor LJZ-2 turbine parts MY-DFYL-2024-6-4
Supplier: Cast steel parts, cast iron parts, metallurgical equipment, mining equipment, water and hydropower equipment, chemical equipment and non standard equipment , hydropower turbine parts include pelton turbine blades, cross flow turbine blades, propeller blades, bulb turbine blades, tube turbine blades, francis turbine blades kaplan turbine blades
Services: Manufacture
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.
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.
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.
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.
Extraction condensing steam turbine The extraction condensing turbines are used when a constant pressure steam flow has to be extracted for process purposes. The constructional characteristics of these turbines are very similar to condensing turbines from the second admission valve chest it is possible to inject low pressure steam, available in the plant to supply the power required by the plant. These turbines are typically used for co-generation where the turbine meets both the power and steam demand of the process plant. In these type of turbines the power generated can be maintained more or less at a steady level despite variation in process steam demands. In some cases it may be necessary to have both bleed and controlled extraction steams from the condensing turbine. These turbines are of bleed cum extraction condensing type.