Air Flow and Thermodynamics
Showing 10–18 of 60 results
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Air Flow and ThermodynamicsCompact Axial Flow Fan Test Set
This is a bench top unit for a studying of axial flow fan characteristics.
The unit consists of a small axial flow fan with DC motor on a steel base, a speed control switch, inlet and outlet ducts, and measuring instruments.
Instruction manual is also included.
TYPICAL EXPERIMENTS- Flow rate vs pressure
- Fan input, output and overall efficiency.
- Effect of speed on fan performance.
TECHNICAL DATAFan ratings : – Maximum flow rate 2.5 m3/min – Maximum pressure 0.10 kPa Speed control Motor input voltage Inlet duct Transparent with flow straighteners and inlet orifice Outlet duct Transparent with flow straighteners and damper Measuring instruments – Air flow Inlet orifice with inclined water manometer – Differential pressure across fan Twin inclined water manometers (one for air flow rate), 0-450 mm x 1 mm graduation, multiple slope 1:10, 1:5, 1:2 and 1:1 – Temperature Thermometer – Atmospheric pressure Barometer – Sensors with digital display - Motor input power
- Fan speed
Software for data display and analysis by computer (separately supplied). Power supply 220 V 1 Ph 50 Hz. Other power supply is available on request. (0 reviews) -
Air Flow and ThermodynamicsCompact Centrifugal Fan Test Set
This is a bench top unit for studying the small centrifugal fan characteristics.
The unit consists of a small industrial centrifugal fan with a backward blade impeller and a motor on a steel base, an advanced inverter, inlet and outlet ducts, and measuring instruments. An interchangeable forward blade impeller is provided for comparison of operating characteristics.
Instruction manual is also included.
TYPICAL EXPERIMENTS- Flow rate vs pressure.
- Fan input, output and overall efficiency.
- Effect of speed on fan performance.
- Comparison of backward and forward blade impellers.
TECHNICAL DATAFan ratings: – Maximum flow rate 10 m3/min – Maximum pressure 0.5 kPa Inlet duct Transparent with flow straighteners and inlet orifice Outlet duct Transparent with flow straighteners and damper Measuring instruments – Air flow rate Inlet orifice and inclined water manometer – Differential pressure across fan Twin inclined water manometers (one for airflow rate), 0-450 mm x 1 mm graduation,
multiple slope 1: 10, 1:5, 1:2 and 1:1– Fan speed and motor input power Advanced inverter – Temperature Thermometer Accessories Forward blade impeller and barometer Software for data display and analysis by computer (separately supplied). Power supply 220V 1Ph 50Hz. Other power supply is available on request. (0 reviews) -
Air Flow and ThermodynamicsCompact Steam Turbine Power Plant 0.5 kW
The unit is designed to simulate modern steam power plant. Main components consist of a feed water system, a small industrial boiler, a steam turbine, a generator and lamp load, a condenser with a condensate tank and a pump, and a cooling tower. Accessories such as fuel tank, fuel flow meter, feed water meter, and a stack are also included. Instruments are provided for measurement of pressures, temperatures, output voltage and currents.
Instruction manual is also included.
TYPICAL EXPERIMENTS- Measurement of feed water and fuel flow rates.
- Boiler efficiency, turbine generator efficiency, and overall power plant efficiency.
- Condenser heat transfer efficiency.
- Cooling tower efficiency.
TECHNICAL DATAThe boiler set consists of:
A . Boiler Unit: – Type Vertical, water tube – Rated heat output Approx. 63 kW (53,900 kcal/h) – Equivalent evaporation Approx. 100 kg/h steam – Maximum working pressure 10 kg/cm2 (0.98 MPa) – Measuring instruments - Pressure gauge for steam outlet
- Temperature sensors for feed water, boiler outlet and exhaust stack. (including ambient temperature)
– Safety devices - Safety valve
- Level gauge and switch at boiler
- Low level alarm
– Boiler accessories - Steam separator
- Stack, 2 x 2.4 m stainless steel with elbows
Burner: – Type Forced draft, pressure atomized – Control On-Off – Fuel Diesel or kerosene (LPG is available as an option.) Fuel system Stainless steel fuel tank, fuel strainer and fuel meter Feed water system: – Resin filter for public water. – Soft water tank. stainless steel – Water meter for steam rate monitoring Power supply 380 V, 3 Ph, 50Hz. Other power supply is available on request. B . Steam Turbine – Type Single stage, twin nozzle impulse turbine – Maximum electrical output Approx. 0.3 kW Measuring instruments: – Speed sensor for turbine – Temperature sensors for steam inlet and outlet – Pressure gauge for steam inlet – Water manometer for turbine outlet C . Generator and Lamp Load Voltage 220V, 1 Ph, 50 Hz. Load lamps 1 set. Measuring instruments – Generator speed digital display – Voltage and current digital display D. Condenser and Cooling Tower TH 101-013 Condenser Description : The unit allows a study of heat transfer in a heat exchanger as well as recover condensate for reuse.
– Type Steam tube – Accessories and instruments - Cooling water pump
- Water meter.
- Condensate tank.
- Stainless steel
- Temperature sensors for condensate, cooling water inlet and outlet
- Strainer
TH 135-014 Cooling Tower Description : This is an educational unit for recovering of condenser cooling water as well as
studying of cooling tower efficiencyE . Software for data display and analysis by computer (separately supplied). (0 reviews) -
Air Flow and ThermodynamicsCompact Steam Turbine Power Plant 1.0 kW
The unit is designed to simulate modern steam power plant. Main components consist of a feed water system, a small industrial boiler, a steam turbine, a generator and lamp load, a condenser with a condensate tank and a pump, and a cooling tower. Accessories such as fuel tank, fuel flow meter, feed water meter, and a stack are also included. Instruments are provided for measurement of pressures, temperatures, output voltage and currents.
Instruction manual is also included.
TYPICAL EXPERIMENTS- Measurement of feed water and fuel flow rates.
- Boiler efficiency, turbine generator efficiency, and overall power plant efficiency.
- Condenser heat transfer efficiency.
- Cooling tower efficiency.
- Rankine cycle efficiency.
TECHNICAL DATAThe boiler set consists of:
A . Boiler Unit: – Type Vertical, water tube – Rated heat output 125 kW (107,000 kcal/h) – Equivalent evaporation Approx. 200 kg/h steam – Maximum working pressure 10 kg/cm2 (0.98 MPa) – Measuring instruments - Pressure gauge for steam outlet
- Temperature sensors for feed water, boiler outlet and exhaust stack (including ambient temperature)
– Safety devices - Safety valve
- Level gauge and switch at boiler
- Low level alarm
– Boiler accessories - Steam separator
- Stack, 2 x 2.4 m stainless steel with elbows
Burner: – Type Forced draft, pressure atomized – Control On-Off – Fuel Diesel or kerosene (LPG is available as an option.) Fuel system Stainless steel fuel tank, fuel strainer and fuel meter Feed water system: – Resin filter for public water. – Soft water tank. Stainless steel – Water meter for steam rate monitoring Power supply 380 V, 3 Ph, 50Hz. Other power supply is available on request. B . Steam Turbine – Type Single stage, twin nozzle impulse turbine – Maximum electrical output Approx. 0.6 kW Measuring instruments: – Speed sensor for turbine – Temperature sensors for steam inlet and outlet – Pressure gauge for steam inlet – Water manometer for turbine outlet C . Generator and Lamp Load Voltage 220V, 1 Ph, 50 Hz. Load lamps 1 set. Measuring instruments – Generator speed digital display – Voltage and current digital display D . Condenser and Cooling Tower TH 102-013 Condenser Description : The unit allows a study of heat transfer in a heat exchanger as well as recover condensate for reuse.
– Type Steam tube – Accessories and instruments - Cooling water pump
- Condensate transfer pump
- Water meter
- Condensate tank
- Stainless steel
- Temperature sensors for condensate, cooling water inlet and outlet
- Strainer
TH 136-014 Cooling Tower Description : This is an educational unit for recovering of condenser cooling water as well as studying of cooling tower efficiency. The unit consists of a cooling tower unit, a storage tank, a circulating pump and temperature gauges.
Technical data – Storage tank – Cooling tower capacity – Circulating pump – Wet bulb temperature sensor E . Software for data display and analysis by computer (separately supplied). (0 reviews) -
Air Flow and ThermodynamicsCompact Steam Turbine Power Plant 1.5 kW
The unit is designed to simulate modern steam power plant. Main components consist of a feed water system, a small industrial boiler, a steam turbine, a generator and lamp load, a condenser with a condensate tank and a pump, and a cooling tower. Accessories such as fuel tank, fuel flow meter, feed water meter, and a stack are also included. Instruments are provided for measurement of pressures, temperatures, output voltage and current.
Instruction manual is also included.
TYPICAL EXPERIMENTS- Measurement of feed water and fuel flow rates.
- Boiler efficiency, turbine generator efficiency, and overall power plant efficiency.
- Condenser heat transfer efficiency.
- Cooling tower efficiency. Rankine cycle efficiency.
TECHNICAL DATAThe boiler set consists of:
A . Boiler Unit: – Type Vertical, water tube – Rated heat output 188 kW (162,000 kcal/h) – Equivalent evaporation Approx. 300 kg/h steam – Maximum working pressure 10 kg/cm2 (0.98 MPa) – Measuring instruments - Pressure gauge for steam outlet
- Temperature sensors for feed water, boiler outlet and exhaust stack (including ambient temperature)
– Safety devices - Safety valve
- Level gauge and switch at boiler
- Low level alarm
– Boiler accessories - Steam separator
- Steam pressure regulator
- Stack, 2 x 2.4 m stainless steel with elbows
Burner: – Type Forced draft, pressure atomized – Control On-Off – Fuel Diesel or kerosene (LPG is available as an option.) Fuel system Stainless steel fuel tank, fuel strainer and fuel meter Feed water system: – Resin filter for public water. – Soft water tank. Stainless steel – Water meter for steam rate monitoring Power supply 380 V, 3 Ph, 50Hz. Other power supply is available on request. B . Steam Turbine – Type Single stage, twin nozzle impulse turbine – Maximum electrical output Approx. 0.9 kW Measuring instruments: – Speed sensor for turbine – Temperature sensors for steam inlet and outlet – Pressure gauge for steam inlet – Water manometer for turbine outlet C . Generator and Lamp Load Voltage 220V, 1 Ph, 50 Hz. Load lamps 1 set. Measuring instruments D . Condenser and Cooling Tower TH 102-013 Condenser Description : The unit allows a study of heat transfer in a heat exchanger as well as recover condensate for reuse.
– Type Steam tube – Accessories and instruments - Cooling water pump
- Condensate transfer pump
- Water meter
- Condensate tank : Stainless steel
- Temperature sensors for cooling water inlet and outlet
- Strainer
TH 137-014 Cooling Tower Description : This is an educational unit for recovering of condenser cooling water as well as studying of cooling tower efficiency.
E . Software for data display and analysis by computer (separately supplied). (0 reviews) -
Air Flow and ThermodynamicsConcentric Tube Heat Exchanger
The apparatus is used for studying the heat transfer through a concentric tube under parallel or counter flow conditions.
The unit consists of a concentric tube heat exchanger, and a service module. The module comprises a hot water tank with a transfer pump and instruments for monitoring and control. Parallel or counter flow is by switching cold water hoses with quick coupling. The unit requires outside water supply.
Instruction manual is also included.
TYPICAL EXPERIMENTS- Demonstration of heat transfer under parallel and counter flow.
- Determination of heat transfer coefficient.
- Effects of flow rate and temperature difference.
TECHNICAL DATAConstruction arrangement 2 sections of insulated . concentric stainless steel tubes Service module consisting of: – Hot water pump. – Heater 3000 W Flow meters - Hot water
- Cold water
– Temperature control unit to limit temperature of hot water to not more than 80°C Software for data display and analysis by computer (separately supplied). Power supply 220 V, 1 Ph, 50 Hz. Other power supply is available on request. (0 reviews) -
Air Flow and ThermodynamicsConcentric Tube Heat Exchanger (Transparent Casing)
The apparatus is used for studying the heat transfer through a concentric tube under parallel or counter flow conditions.
The unit consists of a concentric tube heat exchanger, and a service module. The module comprises a hot water tank with a transfer pump and instruments for monitoring and control. Parallel or counter flow is by switching cold water hoses with quick coupling. The unit requires outside water supply.
Instruction manual is also included.
TYPICAL EXPERIMENTS- Demonstration of heat transfer under parallel and counter flow.
- Determination of heat transfer coefficient.
- Effects of flow rate and temperature difference.
TECHNICAL DATAConstruction arrangement 2 sections of stainless steel inner tube with transparent casing (borosilicate glass) Service module consisting of: – Hot water pump – Stainless steel hot water tank with level switch to prevent heater operation if level is too low – Heater 3000 W – Flow meters - Hot water
- Cold water
Temperature control unit to limit temperature of hot water to not more than 80°C Software for data display and analysis by computer (separately supplied). Power supply 220 V, 1 Ph, 50 Hz. Other power supply is available on request. (0 reviews) -
Air Flow and ThermodynamicsCross Flow Heat Exchanger (Water-to-Air)
The apparatus is for studying heat transfer from hot water to cross flow air such as in automobile radiator.
The unit consists of an air duct with outlet damper, an automotive radiator, an axial flow fan and a service module. The module provided hot water with transfer pump and control and measuring instruments.
TYPICAL EXPERIMENTS:- Determination of heat transfer from hot water to air by finned tubes
- Determination of heat transfer coefficient
- Effect of flow rate and temperature difference
(0 reviews) -
Air Flow and ThermodynamicsCyclone Separator
The equipment is for studying the principle of two phase flow using a centrifugal blower.
Powder material is fed by an agitator and a variable speed screw feeder to a Venturi tube. The material is carried by air in the tube to a cyclone where the velocity is reduced and the material is separated and dropped to the bottom.
Instruction manual is also included.
TYPICAL EXPERIMENTS- Velocity profile of air in the transfer tube using a travelling Pitot.
- Observation of material separation in the cyclone.
- Comparison of theoretical expression with test results for pressure loss and material collection efficiency at each air velocity.
TECHNICAL DATABlower: – Type Centrifugal blower – Maximum air flow rate Over 6 m3/min – Maximum pressure Over 180 mm water Speed control Inverter Cyclone Clear acrylic and discharge tube Accessories - Cyclone dust box
- Filter bag
- Stop watch
- Platform balance
- Beaker
Measuring instruments – Air flow Travelling Pitot with water manometer – Pressure Water manometer for measurement of pressure difference in the transfer tube and the cyclone Software for data display and analysis by computer (separately supplied). Power supply 220 V, 1 Ph, 50 Hz. Other power supply is available on request. (0 reviews)
