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Erschienen in:
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2014 | OriginalPaper | Buchkapitel

5. Specific Human Reliability Analysis Methods for Nuclear Power Plants

verfasst von : B. S. Dhillon

Erschienen in: Human Reliability, Error, and Human Factors in Power Generation

Verlag: Springer International Publishing

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Abstract

Nuclear power plants generate about 16 % of the world’s electricity, and there are over 440 commercial nuclear reactors operating in 30 countries, with another 65 reactors under construction [1]. Furthermore, in 2007, 104 nuclear power plants generated around 19 % of the electricity consumed in the United States [2]. Needless to say, nuclear power plants have become an important element in power generation throughout the world.

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Vorheriges Kapitel General Methods for Performing Human Reliability and Error Analysis in Power Plants
Nächstes Kapitel Human Factors in Power Generation
Literatur
1.
Facts and Figures (2013) Nuclear industry association (NIA). Carlton House, London
2.
U.S. Statistics, Institute for Energy Research (IER), Washington, DC, 2013
3.
Ryan TG (1988) A task analysis-linked approach for integrating the human factor in reliability assessments of nuclear power plants. Reliab Eng Syst Saf 22:219–234CrossRef
4.
Trager TA (1985) Case study report on loss of safety system function events, Report No. AEOD/C504, U.S. Nuclear Regulatory Commission, Washington, DC, 1985
5.
IEEE Guide for Incorporating Human Action Reliability Analysis for Nuclear Power Generating Stations, IEEE Std 1082–1997, Institute of Electrical and Electronics Engineers (IEEE), New York, 1997
6.
Spurgin AJ, Lydell BOY (2002) Critique of current human reliability analysis methods. In: Proceedings of the IEEE seventh conference on human factors and power plants, pp 3.12–3.18
7.
Strater O, Bubb H (1999) Assessment of human reliability based on evaluation of plant experience: requirements and implementation. Reliab Eng Syst Saf 63:199–219CrossRef
8.
Laux L, Plott C (2007) Using operator workload data to inform human reliability analyses. In: Proceedings of the joint 8th IEEE HFPP/13th HPRCT conference, pp 309–312
9.
Kim IS (2001) Human reliability analysis in the man–machine interface design review. Ann Nucl Energy 28:1069–1081CrossRef
10.
Ryan TG (1988) A task analysis-linked approach for integrating the human factor in reliability assessments of nuclear power plants. Reliab Eng Syst Saf 22:219–234CrossRef
11.
Boring RL (2006) Modeling human reliability analysis using MIDAS. In: Proceedings of the 5th international topical meeting on nuclear plant instrumentation, controls, and human machine interface technology, pp 1270–1274
12.
Boring RL, Gertman DI, Joe JC, Marble JL (2005) Human reliability analysis in the U.S. nuclear power industry: a comparison of atomistic and holistic methods. In: Proceedings of the human factors and ergonomics society 49th annual meeting, pp 1815–1819
13.
Human Error Classification and Data Collection, Report No. IAEA.TECDOC 538, International Atomic Energy Agency (IAEA), Vienna, Austria, 1990
14.
Bell J, Holroyd J (2009) Review of human reliability assessment methods, Report No. RR679, Health and Safety Laboratory, Buxton, UK, 2009
15.
Cooper SE et al. (1996) A technique for human event analysis (ATHEANA)-technical basis and methodological description, Report No. NUREG/CR- 6350, U.S. Nuclear Regulatory Commission, Brookhaven National Laboratory, Upton, New York, April 1996
16.
Technical Basis and Implementation Guide-lines for a Technique for Human Event Analysis (ATHEANA), Report No. NUREG-1624, U.S. Nuclear Regulatory Commission, Washington, DC, May 2000
17.
Forester J et al (2004) Expert elicitation approach for performing ATHEANA quantification. Reliab Eng Syst Saf 83:207–220CrossRef
18.
Hollnagel E (1998) Cognitive reliability and error analysis method-CREAM. Elsevier Science, Oxford
19.
Stanton NA, Salmon PM et al (2005) Human factors methods: a practical guide for engineering and design. Ashgate Publishing, Aldershot
20.
Swain AD, Guttmann HE (1983) Handbook of Human Reliability Analysis with Emphasis on Nuclear Power Plant Applications, Report No. NUREG/CR- 1278, US Nuclear Regulatory Commission, Washington, DC, 1983
21.
Kirwin B (1994) A guide to practical human reliability assessment. CRC Press, Boca Raton
22.
Kirwan B et al (1997) The validation of three human reliability quantification techniques, THERP, HEART, and JHEDI: Part II-results of validation exercise. Appl Ergon 28(1):17–25CrossRef
23.
Embrey DE et al. (1984) SLIM-MAUD: an approach to assessing human error probabilities using unstructured expert judgement, volume I: overview of SLIM-MAUD, Report No. NUREG/CR-3518, US Nuclear Regulatory Commission, Washington, DC, 1984
24.
Humphreys P (ed) (1995) Human reliability assessor’s guide. AEA Technology, London
25.
Swain AD (1987) Accident sequence evaluation program human reliability analysis procedure, Report No. NUREG/CR-4772, US Nuclear Regulatory Commission, Washington, DC, 1987
26.
Hannaman GW, Spurgin AJ, Lukic YD (1984) Human cognitive reliability model for PRA analysis, Draft Report No. NUS-4531, EPRI Project No. RP2170-3, Electric Power and Research Institute, Palo Alto, California, 1984
27.
Rasmussen J (1983) Skills, rules, knowledge, signals, signs, and symbols and other distinctions in human performance models. IEEE Trans Syst Man Cybern 13(3):257–266CrossRefMathSciNet
28.
Gertman D et al. (2004) The SPAR-H human reliability method, Report No. NUREG/CR-6883, US Nuclear Regulatory Commission, Washington, DC
29.
Forester J et al. (2006) Evaluation of analysis methods against good practices, Report No. NUREG-1842, US Nuclear Regulatory Commission, Washington, DC, 2006
30.
Kirwan B (1996) The validation of three human reliability quantification techniques, THERP, HEART, and JHEDI: part I-techniques descriptions and validation issues. Appl Ergon 27(6):359–373CrossRef
31.
Kirwan B et al (1997) The validation of three human reliability quantification techniques, THERP, HEART, and JHEDI: part III-practical aspects of the usage of the techniques. Appl Ergon 28(1):27–39CrossRef
Metadaten
Titel
Specific Human Reliability Analysis Methods for Nuclear Power Plants
verfasst von
B. S. Dhillon
Copyright-Jahr
2014
Buch
Human Reliability, Error, and Human Factors in Power Generation

Print ISBN: 978-3-319-04018-9

Electronic ISBN: 978-3-319-04019-6

Copyright-Jahr: 2014

DOI
https://doi.org/10.1007/978-3-319-04019-6_5

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