TSTCC Серия для изучения теплопередачи, управляемая с компьютером (ПК)

26. Demonstration of the combined heat transfer effect by radiation and convection on the surface of the cylinder. Determination of the combined heat transfer effect by forced convection and radiation.
27. Demonstration of the influence of air flow in the heat transfer. Determination of the combined heat transfer effect by forced convection and radiation.
28. Demonstration of the influence of input power in the heat transfer. Determination of the combined heat transfer effect by forced convection and radiation.
29. Demonstration of the combined heat transfer effect of the radiation and convection on the surface of the cylinder. Determination of the combined heat transfer effect by free convection and radiation.
30. Sensors calibration.
31. Determination of the airflow.

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

32. Heat transfer from a Fin.
33. Effect of cross section shape in heat transfer from a Fin.
34. Heat transfer from Fins of two different materials.
35. Measuring the temperature distribution along an extended surface.
36. Sensors calibration.

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

37. Radiation errors in temperature measurement.
38. Measurement the errors in thermocouples in function of its painting, material of its capsules, size.
39. Effect of air velocity on measurement error.
40. Sensors calibration.

Practices to be done with the Unsteady State Heat Transfer Module (TXC/EI):

41. Predicting temperature at the center of a cylinder using transient conduction with convection.
42. Predicting the conductivity of a similar shape constructed from a different material.
43. Conductivity and temperature dependence on volume.
44. Conductivity and temperature dependence on surrounding temperature T∞.
45. Sensors calibration.

Practices to be done with the Thermal Conductivity of Liquids and Gases Module (TXC/LG):

46. Obtaining of the curve of thermal conductivity of the air.
47. Thermal conductivity in vacuum.
48. Water thermal conductivity determination.
49. Thermal conductivity determination of a mineral oil.
50. Calibration of the Unit.
51. Sensors calibration.
52. Dry air thermal conductivity under atmospheric pressure.

Practices to be done with the Free and Forced Convection Heat Transfer Module (TXC/FF):

53. Demonstration of the basic principles of free and forced convection.
54. Comparison between free and forced convection.
55. Free convection in flat surfaces.
56. Forced convection in flat surfaces.
57. Dependence of the heat transfer with the temperature.
58. Dependence of the heat transfer with the speed of the fluid.
59. Dependence of the heat transfer with the exchanger geometry (finned or pinned surface).
60. Temperature distribution in the additional surfaces.
61. Study of the advantage of using pinned and finned surfaces in heat transfer in free convection.
62. Study of the advantage of using pinned and finned surfaces in heat transfer in forced convection.
63. Comparative study between the free convection of a horizontal surface and vertical surface.
64. Sensors calibration.

Practices to be done with the Three Axes Heat Transfer Module (TXC/TE):

65. Determination of the thermal conductivity "k".
66. Conduction through a simple bar.
67. Conduction through three axes.
68. Sensors calibration.

Practices to be done with the Metal to Metal Heat Transfer Module (TXC/MM):

69. Conduction in a simple bar.
70. Determination of the thermal conductivity "k".
71. Determination of the thermal contact resistance.
72. Sensors calibration.

Practices to be done with the Ceramic Heat Transfer Module (TXC/TC):

73. Conduction in a simple bar.
74. Determination of the thermal conductivity "k".
75. Conduction through a compound bar.
76. Determination of the thermal contact resistance.
77. Sensors calibration.

Practices to be done with the Insulating Material Heat Transfer Module (TXC/TI):

78. Determination of the thermal conductivity "k".
79. Calculation of the heat transfer properties of different specimens.
80. Conduction through a compound bar.
81. Insulation effect.
82. Sensors calibration.