Product Details:
Brand | DIDAC |
Material | Stainless steel |
Frame | Horizontal |
Current | 400v |
Operating Frequency | 45deg c |
Mono-Block Pump | no |
Capacity | 40l |
Dimensions | 2 metres x 610mm or 4 metres x 610mm |
Additional Information:
Product Details:
Water Circulation | yes |
Brand | DIDAC |
Material | Stainless steel |
Current | 400v |
Frame | Horizontal |
Capacity | 400l |
Mono-Block Pump | no |
Diameter | 300 mm |
The water enters the turbine through the outer periphery of the runner in the radial direction and leaves the runner in axial direction and hence it is called a mixed flow turbine. As the water flows to the runner, a part of pressure energy goes on changing into kinetic energy. Thus the water through the runner is under pressure. The runner is completely enclosed in a air tight casing and the casing & runner is always full of water. The present set-up consists of a runner. The water is fed to the turbine by means of Centrifugal Pump, radially to the runner. The runner is directly mounted on one end of a central SS shaft and other end is connected to a brake arrangement. The circular window of the turbine casing is provided with a transparent acrylic sheet for observation of flow on to the runner. This runner assembly is supported by thick cast iron pedestal. Load is applied to the turbine with the help of brake arrangement so that the efficiency of the turbine can be calculated. A draught tube is fitted on the outlet of the turbine. The set-up is complete with guide mechanism. Pressure and Vacuum gauges are fitted at the inlet and outlet of the turbine to measure the total supply head on the turbine.
Technical Data:
Additional Information:
Product Details:
Brand | DIDAC |
Material | Stainless steel |
Current | 400v |
Frame | Horizontal |
Operating Frequency | 45deg C |
Capacity | 40l |
Dimensions | 2150mm x 900mm |
Mono-Block Pump | No |
Product Details:
Features:
Specification:
Additional Information:
Product Details:
Capacity | 40l |
Brand | DIDAC |
Material | Stainless steel |
Operating Frequency | 45deg c |
Current | 400v |
Frame | Horizontal |
Mono-Block Pump | no |
Dimensions | 5m, 7.5m, 10m, & 15m |
If the requirement is for a flume suitable both for teaching & project/research work then the very popular has to be the flume of choice, offering high levels of dimensional accuracy, a wide selection of models & accessories & formatting in various configurations. A glass sided tilting flume with fabricated all stainless steel bed. A working cross-section of 300mm wide by 450mm deep and available in standard working lengths of 5m, 7.5m, 10m, & 15m. Longer lengths are available to special order in increments of 2.5m. Completely self-contained and comprising the working section, moulded inlet and discharge tanks, a series of sump tanks, a pump, an electronic flow meter, a jacking system and a control console. The channel section is fully glazed with large clear panels of toughened glass. This is coupled with careful design of the side support profiles to provide excellent visibility and allow flow visualization of the full working height of the flume. The glass panels are sealed using a rubber section compressed by an aluminum alloy clamping strip. The flume bed is manufactured to high tolerances and designed with an integral web support frame to give the flume a high degree of rigidity and stability. Rigid dowelled joints are used to connect the sections. The overall strength and rigidity of the design allows excellent stability figures to be achieved and eliminates the need to provide adjusting screws or to perform periodic setting up of the flume to maintain its specification. No under frame or support structure other than jacks is necessary.
Technical Data:
Additional Information:
Product Details:
Brand | DIDAC |
Material | Stainless steel |
Operating Frequency | 45deg c |
Frame | Horizontal |
Current | 400v |
Mono-Block Pump | no |
Capacity | 40l |
Dimensions | 630 x 400 x 675mm |
The unit comprises a sand tank, made of stainless steel, measuring 2 meters by 1 meter. Water may be input to the sand tank from spray nozzles located above the tank (simulating rainfall), from an inlet tank simulating a river flow or from two french drains buried in the sand at either end of the tank. The water is output either from an outlet tank and flow measurement system located at the end of the main sand tank, from one or both of the two wells located in the tank, or one or both of the French drains.
Product Details:
Other Details:
Additional Information:
Product Details:
Minimum Order Quantity | 1 Piece |
Phase | Single |
Sump Tank Capacity (l) | 40l |
Voltage (V) | 220v |
Power (HP) | 120 |
Vacuum Gauge (mm) | No |
Pressure Gauge (kg/cm Square) | No |
Power Source | No |
Frequency (Hz) | No |
Other Details:
Product Details:
Additional Information:
Product Details:
Brand | DIDAC |
Current | 400v |
Operating Frequency | 45deg c |
Dimensions | 630 x 400 x 675mm |
Capacity | 40l |
Floor Area | 245 |
Vertical Arm | 27mm |
Electricity Supply | 220 240V 1ph 50Hz at 10A |
The present Reciprocating Pump Test Rig is a self contained unit operated on closed circuit basis containing a sump tank. The set-up consists of a Double acting, Single Cylinder Reciprocating Pump coupled with a AC Motor. Flow of water is measured by using measuring tank and stopwatch. Vacuum gauge is fitted on suction line and Pressure gauge is fitted on delivery line to measure the pressure.
Technical Data:
Additional Information:
Product Details:
Brand | DIDAC |
Material | Stainless steel |
Frame | Horizontal |
Operating Frequency | 45deg c |
Current | 400v |
Capacity | 400l |
Dimensions | 300 mm. |
Mono-Block Pump | no |
The power produced by a turbine is proportional to QH. As the head (H) decreases the discharge (Q) must increase to produce the same power. The present set-up consists of a scroll casing housing a runner. Water enters the turbine through the stationary guide vanes and passes through the runner axially. The runner has a hub and airfoil vanes, which are mounted on it. The water is fed to the turbine by means of Centrifugal Pump. The runner is directly mounted on one end of a central shaft and other end is connected to a brake arrangement. A transparent hollow cylinder made of acrylic is fitted in between the draught tube and the casing for observation of flow on to the airfoil vanes. This runner assembly is supported by thick cast iron pedestal. Load is applied to the turbine with the help of brake drum arrangement so that the efficiency of the turbine can be calculated. The set-up is supplied with control panel. Pressure and Vacuum gauges are fitted at the inlet and outlet of the turbine to measure the total supply head on the turbine.
Technical Data:
Additional Information:
Product Details:
Power (kW) | 3 kW. |
Speed (RPM) | 1000 RPM |
Voltage (V) | 220V |
Pump Capacity (HP) | 40L |
Condition | New |
Model Number | DEK045 |
Phase | Single |
Number Of Buckets | 1 |
Pelton Wheel Turbine is a tangential flow impulse turbine. The water strikes the buckets along the tangent of the runner. The energy available at the inlet of the turbine is only kinetic energy. The pressure at the inlet and outlet of the turbine is atmospheric. This turbine is used for high heads. The present set-up consists of a runner. The buckets are mounted on the runner. The water is fed to the turbine, through SS nozzle with a SS spear, by means of Centrifugal Pump, tangentially to the runner. Flow of water into turbine is regulated by adjusting the spear position by the help of a given hand wheel. The runner is directly mounted on one end of a central SS shaft and other end is connected to a brake arrangement. The circular window of the turbine casing is provided with a transparent acrylic sheet for observation of flow on to the buckets. This runner assembly is supported by rigid MS structure. Load is applied to the turbine with the help of this brake dynamometer so that the efficiency of the turbine can be calculated. Pressure gauge is fitted at the inlet of the turbine to measure the total supply head to the turbine..
Technical Data:
Additional Information: