HEAT TRANSFER.BASIC MODULE

issue:01/11

Ref: 0950

ITEM REFERENCE DESCRIPTION QTY.

1 / 2

1 TSTCC COMPUTER CONTROL HEAT TRANSFER SERIES, FORMED BY:

TSTCC/CIB CONTROL INTERFACE BOX FOR HEAT TRANSFER SERIES

1

DAB DATA ACQUISITION BOARD 1TSTCC/CCSOF COMPUTER CONTROL + DATA ACQUISITION + DATA

MANAGEMENT SOFTWARE FOR HEAT TRANSFER SERIES1

TXC/CL LINEAR HEAT CONDUCTION MODULE 1TXC/CR RADIAL HEAT CONDUCTION MODULE 1TXC/RC RADIATION HEAT CONDUCTION MODULE 1TXC/CC COMBINED FREE AND FORCE CONVECTION AND

RADIATION MODULE1

TXC/SE EXTENDED SURFACE HEAT TRANSFER MODULE 1TXC/ER RADIATION ERRORS IN TEMPERATURE MEASUREMENT

MODULE1

TXC/EI UNSTEADY STATE HEAT TRASNFER MODULE 1TXC/LG THERMAL CONDUCTIVITY OF LIQUID AND GAS

MODULE1

TXC/FF FREE AND FORCED CONVECTION HEAT TRANSFER MODULE

1

2 TSTCC/CAL COMPUTER AIDED LEARNING SOFTWARE FOR HEAT TRANSFER(RESULTS CALCULATION AND ANALYSIS) FOR MODULES: TXC/CL, TXC/CR, TXC/RC, TXC/CC, TXC/SE, TXC/ER. TXC/EI, TXC/LG, TXC/FF. TXC/TE. TXC/MM, TXC/TC AND TXC/TI

1

3 0950PARTS COMPONENTS AND SPARE PARTS 1

4 0950PA COMPLEMENTARY ITEM 1

5 0950IYPM INSTALLATION AND STARTING-UP 1

6 0950CAPRO TRAINING AND BRINGING UP TO DATE OF TEACHERS 1

7 0950TD TEACHING TECHNIQUES "KNOW-HOW" 1

8 0950MANU DOCUMENTATION AND MANUALS 1

Ref: 0950 2 / 2

Notes:

This module has only one unit in each item, but we can recommend the number of units for 10 or 30 students working simultaneously.

2)Supply conditions:

a) Technical conditions included:

- Laboratories adaptation.- Installation of all units supplied.

- Starting up for all units.

- Training about the exercises to be done with any unit.

- Teacher training related with t and the teaching unit and the teaching techniques uses.

- Technology transfer.

b) Commercial conditions:

- Packing.

- Financing charges.

- C.I.F. charges.

c) Others conditions:

- 8 Manuals for each EDIBON teaching unit:

. Required services manual.

. Assembly and installation manual.

. Interface and software/control console manual.

. Set in operation manual.

. Safety norms manual.

. Practices manual.

. Maintenance manual.

. Calibration manual.

1) Multipost option:

See Catalogues in next pages

TSTCC. Computer Controlled Heat Transfer Series:

TeachingTechnique

used

Computer ControlSoftware for eachModule

Data Acquisition

Board

32

Control Interface Box

Cables and Accessories

Manuals

SCADA. EDIBON Computer Control System

5

6

TXC/CL. Linear Heat Conduction Module

TXC/TI. Isolated Material Heat

Transfer Module

TXC/CR. Radial Heat Conduction Module

TXC/RC. Radiation Heat Conduction Module

TXC/CC. Combined Free and Forced Convection and Radiation Module

TXC/SE. Extended Surface

Heat Transfer Module

1.2

1.2

1.4 1.5

1.3

1.3

1.1

1.1

TXC/ER. Radiation Errors in Temperature MeasurementModule

1.6 TXC/EI. Unsteady State Heat

Transfer Module

1.7 TXC/LG. Thermal Conductivity of Liquids and Gases Module

1.8 TXC/FF. Free and Forced Convection

Heat Transfer Module

1.9

TXC/TE. 3 Axis Heat Transfer

Module

1.10 TXC/MM. Metal to Metal Heat

Transfer Module

1.11 TXC/TC. Ceramic Heat

Transfer Module

1.12 1.13

Always included in the supply:

Available Modules1

1

SPECIFICATIONS SUMMARYAvailable Modules

PRACTICAL POSSIBILITIES

Practices to be done with the (TXC/CL):

Practices to be done with the :

Practices to be done with the Radiation Heat Conduction Module (TXC/RC):

Linear Heat Conduction Module

Radial Heat Conduction Module (TXC/CR)

1.- Conduction in a simple bar.2.- Determination of the thermal conductivity “k”.3.- Conduction through a compound bar.4.- Determination of the thermal conductivity “k”, of the

stainless steel.5.- Determination of the thermal contact resistance R .tc

6.- Effect of the crossing sectional area.7.- Insulation effect.8.- Temperature sensors calibration.9-27 .- Practices with PLC.

28.-Radial conduction.29.-Calibration of the temperature sensors.30.- Determination of the thermal conductivity “k”.31.- Determination of the thermal contact resistance R .tc

32.- Effect of the crossing sectional area.33.- Insulation effect. 34-52 .- Practices with PLC.

53.- Inverse of the distant square law for the radiation.54.-Stefan-Boltzman´s law.55.-Emission power I.56.-Emission power II.57.-Kirchhorff´s law.58.- Area factors.59.- Inverse of the distant square law for the light.60.- A´lamberts cosine´s law.61.- A´lamberts absorption´s law.62-80 .- Practices with PLC.

TXC/CL. Linear Heat Conduction Module:

TXC/CR. Radial Heat Conduction Module:

Brass disk of 110 mm of diameter and 3 mm of thickness. Electric heater. Peripherical cooling tube. 6 Temperature sensors distanced 10 mm.

TXC/RC. Radiation Heat Conduction Module:

r

Anodized aluminium structure.Diagram in the front panel with similar distribution that the elements in the real unit.

(#)Flexible, open and multicontrol software. Management, processing, comparison and storage of data. Sampling velocity up to 250,000 data per second. It allows the registration of the alarms state and the graphic representation in real time.

This module required Control Interface Box (TSTCC/CIB) and Data Acquisition Board (DAB).

Diagram in the front panel with similar distribution that the elements in the real unit.

(

This module required Control Interface Box (TSTCC/CIB) and Data Acquisition Board (DAB).

Diagram in the front panel with similar distribution that the elements in the real unit.

(

This module required Control Interface Box (TSTCC/CIB) and Data Acquisition Board (DAB).

Lineal conduction module consist on :input heat section, electric heater with controller circuit. Temperature sensors.Refrigeration section with a surface cooled by water and 4 Temperature sensors.Central section: with brass of 25 mm of diameter and brass of 10 mm of diameter, with stainless steel of 25 mm of diameter; 3 Temperature sensors. Digital wattmeter of 0 to 120 W.This unit is supplied with 8 manuals.Computer Control+Data Acquisition+Data Management Software for this Module:

Dimensions (approx.): 300 x 300 x 175 mm. Weight: 20 Kg.

This unit is supplied with 8 manuals. Computer Control+Data Acquisition+Data Management Software for this Module. #)Dimensions (approx.):300 x 300 x 175 mm. Weight: 20 Kg.

This unit consists on a metal plate with a resistance at one side and a lamp in the another side. Lengthwise of the metal plate you can place the elements supplied with the unit. Resistance that allows to heat and to study the radiation. The unit is provided with accessories for light experiments and radiation experiments. Light accessories: luxometer, filters, filters porthole.Radiation accessories: adiometer, planes surfaces. There are elements for studding the radiation and each one contains one temperature sensor: polished aluminium, anodized aluminium, brass. 2 Black body. Variable slit or aperture. It allows to regulate the area of the radiation. 6 Temperature sensors.This unit is supplied with 8 manuals: Computer Control+Data Acquisition+Data Management Software this Module . #)Dimensions (approx.) : 1400 x 820 x 900 mm. Weight: 40 Kg.

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Non computer controlled version available.Page 47

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9.8- Heat Transfer (Basic)

www.edibon.com

SPECIFICATIONS SUMMARY (continuation) PRACTICAL POSSIBILITIES (continuation)

Practices to be done with the Combined Free and Forced Convection and Radiation Module(TXC/CC):

Practices to be done with the Extended Surface Heat Transfer Module(TXC/SE):

Practices to be done with the Radiation Errors in Temperature Measurement Module (TXC/ER):

Practices to be done with the (TXC/EI):

151.-

152.-

153.-

154.-

Practices to be done with the

174.-175.-176.-

177.-178.-179.-

Practices to be done with the (TXC/FF):

199.-200.-201.-

202.-

203.-

204.-

Practices to be done with the 3 (TXC/TE):

224.-225.-226.-

Practices to be done with the (TXC/MM):

246.-247.-248.-249.-250.-

Practices to be done with the (TXC/TC):

270.-271.-272.-273.-

Practices to be done with the (TXC/TI):

293.-294.-295.-296.-

81.- Control System: Temperature sensors calibration.82.- Control System: Air flow sensor calibration.83.- Demonstration of the combined transmission effect of

the radiation and convection on the surface of the cylinder. Determination of the combined transmission effect of heating by forced convection an radiation.

84.- Demonstration of the influence of air flow in the heating transfer. Determination of the combined transmission effect of heating by forced convection and radiation.

85.- Demonstration of the influence of input power in the heating transfer. Determination of the combined transmission effect of heating by forced convection and radiation.

86.- Demonstration of the combined transmission effect of the radiation and convection on the surface of the cylinder. Determination of the combined transmission effect of heating by free convection and radiation.

87.- Determination of the airflow.88-106 .- Practices with PLC.

Heat transfer from a Fin.108.-Effect of cross section shape in heat transfer from a Fin109.-Heat transfer from Fins of two different materials.110-128 .- Practices with PLC.

129.-Radiation errors in temperature measurement.130.-Control System: Temperature sensors calibration.131.-Control System: Temperature air flow sensors

calibration.132-150 .- Practices with PLC.

Predicting temperature at the center of a cylinder using transient conduction with convection.Predicting the conductivity of a similar shape constructed from a different material.Conductivity and temperature dependence on volume.Conductivity and temperature dependence on surrounding temperature T .

155-173 .- Practices with PLC.

Control System: Temperature sensors calibration.Unit calibration.Obtaining of the curve of thermal conductivity of the air.Determination of thermal conductivity in vacuum.Determination of water thermal conductivity.Thermal conductivity determination of a mineral oil.

180-198 .- Practices with PLC.

Free convection in flat surfaces.Forced convection in flat surfaces.Dependence of the heat transmission with the

temperature.Dependence of the heat transmission with the speed

of the fluid.Dependence of the heat transmission with the

exchanger geometry. Temperature distribution in the additional surfaces.

205-223 .- Practices with PLC.

107.-

Unsteady State Heat Transfer Module

Thermal Conductivity of Liquids and Gases Module (TXC/LG):

Free and Forced Convection Heat Transfer Module

Axis Heat Transfer Module

Calibration processes.Temperature sensors calibration.Determination of the thermal conductivity “k”, through 3 axis.

227-245 .- Practices with PLC.Metal to Metal Heat

Transfer ModuleCalibration processes.Temperature sensors calibration.Determination of the thermal conductivity “k”.Insulation effect.Determination of the thermal contact resistance.

251-269.- Practices with PLC.Ceramic Heat Transfer

Module Calibration processes.Temperature sensors calibration.Determination of the thermal conductivity “k”.Calculation of the heat transfer properties of

specimens.274-292 .- Practices with PLC.

Isolated Material Heat Transfer Module

Calibration processes.Temperature sensors calibration.Determination of the thermal conductivity “k”.Calculation of the heat transfer properties of specimens.

297-315 .- Practices with PLC.

TXC/CC. Combined Free and Forced Convection and Radiation Module:

TXC/SE. Extended Surface Heat Transfer Module:

TXC/ER. Radiation Errors in Temperature Measurement Module:

5 Temperature sensors.

TXC/EI . Unsteady State Heat Transfer Module:Water tank. Different

shapes of various materials are studied.

Level indicator.

TXC/LG. Thermal Conductivity of Liquids and Gases Module:Aluminium body with

brass jacket. Resistance. Valves. 5 Temperature sensors. Syringe.

TXC/FF. Free and Forced Convection Heat Transfer Module:Stainless steel tunnel.

Methacrylate viewer that allows a good visualization of the exchanger in use. Variable speed fan.Heating resistance.Flow sensor. 9 Temperature sensors. 3 Exchanger: flat heat exchanger, dowels heat exchanger, blade heat exchanger.

TXC/TE. 3 Axis Heat Transfer Module: 3 Axis conduction

module. Electric heater. 8 Temperature sensors.

TXC/MM. Metal to Metal Heat Transfer Module: Electric heater. 6

Temperature sensors. Materials to test: copper, brass, stainless steel, aluminium (to choose).

TXC/TC. Ceramic Heat Transfer Module: Electric heater. 6

Temperature sensors. Suitable for ceramic materials.

TXC/TI. Isolated Material Heat Transfer Module:Electric heater. 8

Temperature sensors. Suitable for fibrous, granular and sheet materials. Suitable for homogeneous and non-homogeneous materials. Suitable for soft, semi-rigid and rigid materials.

Diagram in the front panel with similar distribution that the elements in the real unit. C

(

This module required Control Interface Box (TSTCC/CIB) and Data Acquisition Board (DAB).

Diagram in the front panel with similar distribution that the elements in the real unit. 300 W R

(

This module required Control Interface Box (TSTCC/CIB) and Data Acquisition Board (DAB).

Diagram in the front panel with similar distribution that the elements in the real unit.

(

This module required Control Interface Box (TSTCC/CIB) and Data Acquisition Board (DAB).

Diagram in the front panel with similar distribution that the elements in the real unit.

(

This module required Control Interface Box (TSTCC/CIB) and Data Acquisition Board (DAB).

Diagram in the front panel with similar distribution that the elements in the real unit.

(

This module required Control Interface Box (TSTCC/CIB) and Data Acquisition Board (DAB).

Diagram in the front panel with similar distribution that the elements in the real unit.

(

This module required Control Interface Box (TSTCC/CIB) and Data Acquisition Board (DAB).

Diagram in the front panel with similar distribution that the elements in the real unit.

(

This module required Control Interface Box (TSTCC/CIB) and Data Acquisition Board (DAB).

Diagram in the front panel with similar distribution that the elements in the real unit.

(

This module required Control Interface Box (TSTCC/CIB) and Data Acquisition Board (DAB).

Diagram in the front panel with similar distribution that the elements in the real unit.

(

This module required Control Interface Box (TSTCC/CIB) and Data Acquisition Board (DAB).

Diagram in the front panel with similar distribution that the elements in the real unit.

(

This module required Control Interface Box (TSTCC/CIB) and Data Acquisition Board (DAB).

TSTCC/CIB. Control Interface Box:With process diagram in the front panel. The unit control elements are permanently computer controlled. Simultaneous visualization in the computer of all parameters involved in the process. Calibration of all sensors involved in the process. Real time curves representation. All the actuators’ values can be changed at any time from the keyboard. Shield and filtered signals to avoid external interferences. Real time PID control with flexibility of modifications from the computer keyboard of the PID parameters, at any moment during the process. Open control allowing modifications, at any time and in a real time, of parameters involved in the process. 3 safety levels: mechanical in the unit, electronic in control interface, and the third one in the control software.Dimensions (approx.): 490x330x310 mm. Weight: 10 Kg.

DAB. Data Acquisition Board:PCI Data acquisition National Instruments board to be placed in a computer slot. 16 Analog inputs. Sampling rate up to: 250 KS/s. 2 Analog outputs. 24 Digital Inputs/Outputs.

entrifugal fan of 2650 rpm, max. flow: 1200l/min and air max. velocity around 5 m/s. Stainless steel conduct with interior cover, formed by: temperature sensor, in order to measure the temperature of inlet air; anemometer for measuring the air flow (natural convection), differential pressure sensor for measuring the air flow (forced convection) and temperature sensor in order to measure the temperature of outlet floodgate.Heater: copper cylinder with exterior cover: interior resistance of 150W., temperature sensor for measuring the temperature of the cylinder. Temperature sensor. This unit is supplied with 8 manuals.Computer Control+Data Acquisition+Data Management Software for this Module . #)Dimensions (approx.): 430 x 350 x 1300 mm. Weight: 50 Kg.

esistance, embedded in a copper capsule to permit a good contact with the interchangeable fins. The copper capsule is isolated by a coat of Teflon. The power to the resistance is controlled from the computer control software by a 0-10 Volts signal. 11 Temperature sensors. This unit is supplied with 8 manuals. Computer Control+Data Acquisition+Data Management Software this Module . #)Dimensions (approx.): 600 x 300 x 175 mm. Weight: 20 Kg.

Centrifugal fan of 2650 rpm, max. flow 1200l/min and air max. velocity around 5 m/s. Stainless steel conduct with interior cover, formed by: temperature sensor, in order to measure the temperature of inlet air; flow sensor, temperature sensor, in order to measure the temperature of outlet floodgate. Copper cylinder with exterior cover: interior resistance of 150W. temperature sensor for measuring the temperature of the cylinder. This unit is supplied with 8 manuals.Computer Control+Data Acquisition+Data Management Software for this Module . #)Dimensions (approx.): 430 x 350 x 1300 mm. Weight: 50 Kg.

Heating element (3000 W). The high power allows reaching the steady state faster. Water pump with variable speed is controlled by an inverter, maximum flow of 4 l./min. 3 Temperature sensors allow controlling the stability of the temperature of the water bath. Flow sensor. 2 Temperature sensors. The first one permits to record the evolution of the temperature of the shape at its center. The second one, works as a stop watch, it will indicate the precise moment in which the shape is submerged. This unit is supplied with 8 manuals.Computer Control+Data Acquisition+Data Management Software for this Module . #)Dimensions (approx.):600 x 600 x 750 mm. Weight: 60 Kg.

This unit is supplied with 8 manuals. Computer Control+Data Acquisition+Data Management Software for this Module . #)Dimensions (approx.): 300 x 300 x 175 mm. Weight: 20 Kg.

This unit is supplied with 8 manuals. Computer Control+Data Acquisition+Data Management Software for this Module. #)Dimensions: 370 x 610 x 920 mm. Weight: 20 Kg.

This unit is supplied with 8 manuals. Computer Control+Data Acquisition+Data Management Software for this Module. #)Dimensions: 300 x 300 x 175 mm. Weight: 20 Kg.

This unit is supplied with 8 manuals. Computer Control+Data Acquisition+Data Management Software for this Module . #)Dimensions: 300 x 300 x 175 mm. Weight: 20 Kg.

This unit is supplied with 8 manuals. Computer Control+Data Acquisition+Data Management Software for this Module . #)Dimensions (approx.): 300 x 300 x 175 mm. Weight: 30 Kg.

This unit is supplied with 8 manuals. Computer Control+Data Acquisition+Data Management Software for this Module. #)Dimensions (approx.): 300 x 300 x 175 mm. Weight: 20 Kg.

Non computer controlled version available.

Available Modules (continuation)

Items Common for the Modules type “TXC”

1.4

1.5

1.6

1.7

1.8

1.9

1.10

1.11

1.12

1.13

3

2

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More information in: www.edibon.com/products/catalogues/en/units/thermodynamicsthermotechnics/heattransferbasic/TSTCC.pdf

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