| 課程單元 |
QUESTIONS |
| Worldwide Utilization Of Power Reactor Technology |
1_1N_QUE (PDF) |
| Analysis of Reactor Types |
2_6N_QUE (PDF) |
| Relationships Between Assemblies Of Different Pin Arrays |
2_7N_QUE (PDF) |
| Energy Sources In A Typical PWR |
3_06N_QUE (PDF) |
| Decay Heat From A PWR Fuel Rod |
3_07N_QUE (PDF) |
| Decay Power Calculations Of A 3-Batch PWR Core |
3_08N_QUE (PDF) |
| Thermodynamics Of Binary Cycle Involving Sodium And Steam Water |
6_08N_QUE (PDF) |
| Proofs Involving The Brayton Cycle |
6_09N_QUE (PDF) |
| Replacement Of A Steam Generator In A PWR With A Flash Tank |
6_10N_QUE (PDF) |
| Irreversibility Problems Involving The Rankine Cycle |
6_11N_QUE (PDF) |
| Complex Brayton Cycle With Regeneration, Pressure Loss, And Real Machines |
6_12N_QUE (PDF) |
| Optimizing The Pressure Ratio Of The Brayton Cycle In A Brayton- Rankine Combined Cycle |
6_13N_QUE (PDF) |
| BWR Operation At Supercritical Conditions |
6_14N_QUE (PDF) |
| Cycle Thermal Efficiency Problem Involving A Bottoming Cycle |
6_15N_QUE (PDF) |
| Tokamak Power Generation Problem |
6_16N_QUE (PDF) |
| Containment Problem Involving a LOCA |
7_10N_QUE (PDF) |
| Pressurizer Transient Problem |
7_11N_QUE (PDF) |
| Pressurizer Insurge Problem |
7_12N_QUE (PDF) |
| Pressurizer Sizing Analysis |
7_13N_QUE (PDF) |
| Containment Pressurization Reactor Thermodynamics |
7_14N_QUE (PDF) |
| Drain Tank Pressurization Problem |
7_15N_QUE (PDF) |
| Containment Pressurization Following Zircaloy-Hydrogen Reaction |
7_16N_QUE (PDF) |
| 'Conductivity Integral' |
8_08N_QUE (PDF) |
| Thermal Conduction Problem Involving Design Of A BWR Core |
8_09N_QUE (PDF) |
| Important Features Of Fuel Element Temperature Calculation |
8_10N_QUE (PDF) |
| Comparison Of Thermal Energy That Can Be Extracted From A Spherical Hollow Fuel Pellet Versus A Cylindrical Annular Fuel Pellet |
8_11N_QUE (PDF) |
| Transient Fuel Pin Analysis |
8_12N_QUE (PDF) |
| Fuel Pin Problem |
8_13N_QUE (PDF) |
Radially Averaged Fuel Temperature And Stored Energy In Solid And
Annular Pellet |
8_14N_QUE (PDF) |
| Two-Zone Sintering Of An Annular Fuel Pellet |
8_15N_QUE (PDF) |
| Reynolds Analogy And Equivalent Diameter Problem |
10_07N_QUE (PDF) |
| Turbulent Heat Transfer Coefficient Calculations |
10_08N_QUE (PDF) |
| Equivalent Diameter And Reynolds Analogy Problem Involving A Fuel Element |
10_09N_QUE (PDF) |
| Fully Developed Laminar Heat Transfer in a Circular Duct |
10_10N_QUE (PDF) |
| HEM Pressure Loss Problem |
11_08N_QUE (PDF) |
| Wall Friction Components For Liquid And Vapor Only |
11_09N_QUE (PDF) |
| Void, Quality And Pressure Drop Problem |
11_10N_QUE (PDF) |
| Calculating Void Fraction In Adiabatic Steam-Water Flow |
11_11N_QUE (PDF) |
| Thermal Parameters In A Heated Channel In Two-Phase Flow |
12_06_QUE (PDF) |
| Computation Of The Axial Distribution Of Thermal And Hydraulic Characteristics Of A Horizontal Steam Generator |
12_07_QUE (PDF) |
| Shell And Tube Horizontal Evaporator |
12_08_QUE (PDF) |
| BWR Heat Transfer Problem |
12_09_QUE (PDF) |
| Calculation Of MCHFR And MCPR For A BWR Channel |
12_10_QUE (PDF) |
| Nucleate Boiling And CHF In A PWR Steam Generator |
12_11N_QUE (PDF) |
| Nucleate Boiling On A Tube Wall |
12_12N_QUE (PDF) |
| Nucleate Boiling Initiation And Termination On A Heat Exchanger Tube |
12_13N_QUE (PDF) |
| Nucleation in Pool and Flow Boiling |
12_14N_QUE (PDF) |
| Two Phase Flow Pressure Drop Calculation In BWR |
13_07N_QUE (PDF) |
| Thermal Hydraulic Analysis Of A Pressure Tube Reactor |
13_08N_QUE (PDF) |
| Heat Transfer Problems for a BWR Channel |
13_09N_QUE (PDF) |
| Two Phase Problem Involving A Nuclear Power Plant |
13_10N_QUE (PDF) |
| Location Of Maximum Clad And Fuel Temperature For A Uniform Axial q''' |
13_11N_QUE (PDF) |
| Thermal Behavior Of A Plate Fuel Element Following A Loss Of Coolant |
13_12N_QUE (PDF) |
| Maximum Clad Temperature For LMFBR Reactor |
13_13N_QUE (PDF) |
| Determining Material Properties From Test Results |
S1-1_QUE (PDF) |
| Stress Field Determination Using Mohr’s Circle |
S1-2_QUE (PDF) |
| Discontinuity Analysis at the Joint of Cylindrical Pipes of Different Wall Thickness |
S2-1_QUE (PDF) |
| External and Internal Pressure to Fail a Spherical Vessel by the Maximum Shear Stress Theory |
S4-1_QUE (PDF) |
| Interior Pressure to Fail Cylindrical and Spherical Vessel by Several Failure Theories |
S4-2_QUE (PDF) |
| Determining Allowable Pressure by ASME Criteria |
S5-1_QUE (PDF) |
