TY  - BOOK
AU  - IAEA
TI  - Application of Wireless Technologies in Nuclear Power Plant Instrumentation and Control Systems
T2  - IAEA Nuclear Energy Ser.
SN  - 9201052227
AV  - TK9178 .A675 2020
PY  - 2020///
CY  - Havertown
PB  - International Atomic Energy Agency
KW  - Nuclear power plants
KW  - Instruments
KW  - Nuclear reactors
KW  - Control
KW  - Wireless communication systems
KW  - Electronic Books
N1  - Description based upon print version of record; 4.4. Case studies on radiation monitoring in nuclear power plants; 2; Intro --; 1. INTRODUCTION --; 1.1. Background --; 1.2. Objective --; 1.3. Scope --; 1.3.1. Codes, standards and regulatory guides --; 1.3.2. Wireless technologies for nuclear applications --; 1.3.3. Practices, experience and lessons learned --; 1.3.4. Potential wireless applications --; 1.3.5. Emerging technologies and challenges --; 1.4. Structure --; 2. Codes, standards and regulatory guides --; 2.1. Introduction to wireless technologies and protocols --; 2.2. Current status of standardization for nuclear power plant applications --; 2.3. Wireless communication and the concept of defence in depth; 2.4. General requirements for wireless communication --; 2.4.1. Member State governmental frequency control considerations --; 2.4.2. Maximum transmission power --; 2.4.3. Computer security --; 2.4.4. Electromagnetic compatibility --; 2.4.5. Wireless coexistence --; 2.4.6. Exclusion zone development --; 3. Wireless technologies for nuclear applications --; 3.1. Introduction --; 3.2. Components of a wireless sensor --; 3.3. Radiofrequency communication considerations --; 3.3.1. Wireless network topology --; 3.3.2. Wireless network standards and protocols --; 3.3.3. Computer security; 3.3.4. Signal propagation and range of coverage --; 3.3.5. Interference and coexistence --; 3.4. Energy source considerations --; 3.4.1. Power consumption --; 3.4.2. Network throughput --; 3.4.3. Power harvesting --; 3.5. Nuclear specific considerations --; 3.5.1. Environment and radiation effects --; 3.5.2. Electromagnetic compatibility --; 3.5.3. Integration with existing I&C systems and components --; 4. Practices, experience and lessons learned --; 4.1. Introduction --; 4.2. Case studies on process monitoring; 4.2.1. Deployment of a wireless sensor network for process measurement in the Fast Breeder Test Reactor at the Indira Gandhi Centre for Atomic Research, India --; 4.2.2. Deployment of wireless sensor network for the measurement of sodium leak detection at the In Sodium Test Facility, Indira Gandhi Centre for Atomic Research, India --; 4.2.3. Deployment of wireless sensor network for the measurement of temperature and humidity at the Safety Grade Decay Heat Removal Loop in Natrium, Indira Gandhi Centre for Atomic Research, India --; 4.3. Case studies on equipment monitoring; 4.3.1. Wireless conditioning monitoring at Luminant's Comanche Peak plant, United States of America --; 4.3.2. Containment cooling fan on-line monitoring at the Arkansas One plant, United States of America --; 4.3.3. Cooling tower fan motor monitoring at the High Flux Isotope Reactor at the Oak Ridge National Laboratory, United States of America --; 4.3.4. Vibration and temperature monitoring for fan motor at Exelon's Limerick plant, United States of America --; 4.3.5. Motor health monitoring at Southern California Edison's San Onofre plant, United States of America; 2; b
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