.TRANSFORM.HeatAndMassTransfer.Examples.ExamplesFrom_NellisAndKlein

Contents

Name	Description
Example_1_2_1_LiquidOxygenDewar	Example 1.2-1: Liquid Oxygen Dewar | pp. 17-24
Figure_1_8_UniformThermalEnergyGeneration_Plane	Uniform thermaly energy generation in a plane wall (Figure 1-8) | pg. 28
Example_1_3_1_MagneticAblation	Example 1.3-1: Magnetic Ablation | pp. 31-37
Example_1_3_2_AbsorptionInALens	Part a & b) Determine the temperature distribution in the lense
Example_1_4_1_FuelElement	Part a) Plot the temperature distribution in the fuel and cladding | Figure 2
Example_1_5_1_ThermalProtectionSystem	part a) Determine heat flus to air and the rate the the ablative shield is consumed
Figure_1_14_NumericalSolutions	Figure 1 - 14 for an aluminnum oxide cylinder pp. 45-55
Figure_1_14_NumericalSolutionsMT	Figure 1 - 14 for an aluminnum oxide cylinder pp. 45-55
Example_1_6_1_SolderingTubes	Example 1.6-1 Soldering Tubes | pp. 110-113
Example_1_6_2_ThermoelectricHeatSink	part a) Estimate heat transfer through finned surface
Example_1_7_1_BentBeamActuator	Example 1.7-1 Bent Beam Actuator | pp. 127-133
Example_1_7_2_DrawingAWire	part a) Determine temperature distribution in the wire
Example_1_8_1_PipeInARoof	Example 1.8-1 Pipe In A Roof | pp. 155-160
Example_1_9_1_TemperatureSensorMounting	part a) Plot the temperature distribution to identify the measurement error
Example_1_9_2_CryogenicCurrentLeads	part a) Find the optimal lead diameter to the cryogenic device
Example_2_2_1_2DFin	Uniform thermaly energy generation in a plane wall (Figure 1-8) | pg. 28
ConveyorBeltDesign	Example 3.1-1 Design of a conveyor belt pp. 307-309
SensorInOscillatingTemperatureEnvironment	Example 3.1-2 Sensor in an oscillating temperature environment pp. 310-316
OvenBrazing	Example 3.2-1 Oven Brazing pp. 339-348
TransientResponseOfATankWall	Example 3.3-1 Transient response of a tank wall pp. 351-354
QuenchingACompositeStructure	Example 3.3-2 Quenching a composite structure pp. 363-369