Environmental Engineering Reference
In-Depth Information
EPRI. 1015313. (2010).
Computerized Procedure
Systems: Guidance on the Design, Implementation,
and Use of Computerized Procedure Systems, As-
sociated Automation, and Soft Controls
, Electric
Power Research Institute, Palo Alto, CA, USA.
NUREG-0800. (2010).
Standard Review Plan for
the Review of Safety Analysis Reports for Nuclear
Power Plants. Chapter 7. Imstrumentation and
control.
US Nuclear Regulatory Commission,
Washington, DC).
Gertman, D. I., & Blackman, H. S. (1994).
Human
Reliability and Safety Analysis Data Handbook
.
New York, USA: John Wiley and Sons.
NUREG/CR-7006. (2010).
Review Guidelines
for Field-Programmable Gate Arrays in Nuclear
Power Plant Safety Systems
. Washington, DC:
U.S. Nuclear Regulatory Commission.
Hashemian, H. M. (2005). Sensor Performance
and Reliability, ISA—The Instrumentation, Sys-
tems, and Automation Society, Research Triangle
Park, NC.
O'Hara, J. (2009).
Applying Human Performance
Models to Designing and Evaluating Nuclear
Power Plants: Review Guidance and Technical
Basis
. Upton, NY: Brookhaven National Labora-
tory. doi:10.2172/1013435
Hashemian, H. M. (2006).
Maintenance of Process
Instrumentation in Nuclear Power Plants
. Berlin,
Heidelberg: Springer-Verlag.
Sheridan, T. B. (2002).
Humans and automation:
System design and research issues
. New York,
NY, USA: Wiley & Sons Inc.
Hashemian, H. M. (2011).
Measurement of Dy-
namic Temperature and Pressures in Nuclear
Power Plants
. Canada: University of Western
Ontario.
Spellman, F. R., & Whiting, N. E. (1999).
Safety
Engineering: Principles and Practices
. Rockville,
Maryland: Government Institutes.
He, X., & Tong, J. (2006).
Some Considerations
for Implementing Human Reliability Analysis for
Advanced reactors
. ESERL.
Tong, L. S., & Weisman, J. (1996).
Thermal Analy-
sis of Pressurized Water Reactors
(3rd ed.). ANS.
Hollifield, B., & Habibi, E. (2010).
The Alarm
Management Handbook
. Houston, TX: PAS.
KEY TERMS AND DEFINITIONS
Hollnagel, E. (1993).
Human reliability analysis:
Context and control
. London, UK: Academic
Press.
Component:
A discrete element of a system. A
component may be hardware or software and may
be subdivided into other components. Examples
are wires, transistors, integrate circuits, motors,
relays, solenoids.
Equipment Family:
A set of hardware
and software components that may work co-
operatively in one or more defined architectures
(configurations). An equipment family usually
provides a number of standard functionalities (e.g.
application functions library) that may be com-
bined to generate specific application software.
Hollnagel, E. (2004).
Barriers and accident pre-
vention
. Ashgate Pub Ltd.
Hood, C., & Rothstein, H. et al. (2004).
The Gov-
ernment of Risk. Understanding Risk Regulation
Regimes
. Oxford, UK: Oxford University Press.
Miller, D. W., et al. (2006).
Instrumentation, Con-
trols, and Human-Machine InterfaceWscience and
Technology Roadmap
. 5th NPIC&HMIT; ANS.
Albuquerque, NM.
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