Complete Nuclear Engineering 1.0

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Simple & clean notes to learn complete nuclear & radiological engineering.It contain almost all important topics which are give below chapter wise.

Physics fundamentals of Nuclear Energy and Ionizing Radiation• Nuclear Energy Worldwide. Overall view of a Nuclear Power plant• Nuclear structure• Radioactivity and Radioactive processes• Nuclear Reactions• Fission chain reaction• Interaction of Ionizing radiation with matterNuclear Power Plants and Nuclear Safety

• Working principles of nuclear reactors• Pressurized Water Reactor. Core and main systems• Pressurized Water Reactor. Operation and controls• Nuclear Safety. General aspects• Nuclear Safety. Accident analysis• Advanced Nuclear Reactors

Fuel cycle• Define fuel burn-up.• Enumerate and describe the steps of the Nuclear Fuel Cycle• Environmental impact of nuclear facilities• Nuclear and radiological waste management

Nuclear Radiation Detection• General characteristics of radiation detectors• Counting statistics and error propagation• Gas-filled detectors• Scintillation detectors• Semiconductor detectors• Neutron detection• Spectroscopy• Miscellaneous radiation detectors

Nuclear Reactor Physics

Radiation Physics• Special theory of relativity• Wave particle duality• Atomic structure and atomic radiation• The nucleus and nuclear radiations• Nuclear models and nuclear energetics• Characteristics of radioactive decay• Radiation cross sections• Neutron interactions with matter, fission, criticality• Interaction of heavy charged particles with matter• Interaction of electrons with matter• Interaction of photons with matterRadiation Protection Engineering• Particle Interactions of Importance to Radiation Protection• Review of Serial Radioactive Decay• Radiation Fields and Sources• Dose Quantities• Computation and Measurement of Dose• Radiation Protection Criteria, Exposure Limits, Risk, and Regulation• Biological Effects of Radiation• Radiation Shielding• Point Kernel Methods and Buildup Factors for Gamma-Rays Shielding• Introduction to Monte Carlo Simulation• External Radiation Protection• Internal Radiation Protection• Natural and Man-Made Sources of Radiation ExposureRadiation Physics Laboratory• Power Plant Descriptions/Thermal Design Principles• Reactor Heat Generation• Thermal Analysis of Fuel Elements• Single Phase Fluid Mechanics/Pressure drop in rod bundles• Single Phase Heat Transfer• Two-Phase Flow• Boiling Heat Transfer• Reactor Thermal Hydraulic Design/ Uncertainty AnalysisNuclear Radiological Engineering Design

• Appropriate to the specific design project• design of primary system of a nuclear reactor• The associated fuel cycle;• Determination of relevant safety parameters.Nuclear Criticality Safety EngineeringLight Water Reactor TechnologyRadiation Sources and Applications

Radiological Assessment and Waste Management

Regulation and Siting of Waste Management Facilities• Case Studies• Public Health, Environmental and Safety Aspects of Waste Management Practices• Low-Level Radioactive Waste Management• Transportation of Waste• Radioactive Waste Storage and Disposal• Remediation and Stabilization of Contaminated Sites• Decontamination and DecommissioningIntroduction to Plasma Physics and Fusion EngineeringNuclear Chemical Engineering• Nuclear Reactions• Fuel cycles• Solvent extraction of metals• Properties of actinides• Properties of other irradiated fuel materials• Fuel reprocessing• Radioactive waste management

VERSION HISTORY

  • Version 1.0 posted on 2016-07-28

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