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Books on the topic 'Accident modelling'

Author: Grafiati
Published: 19 February 2023

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1

1950-, Morgenstern W., ed. Mathematical modelling with Chernobyl registry data: Registry and concepts. Berlin: Springer, 1995.

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2

(Firm), Price Waterhouse. Modelling the impact of rurality on the provision of accident & emergency services in Northern Ireland: Final report [to the DHSS]. Belfast: Department of Health and Social Services, 1998.

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3

Klukas, M. H. Aquatic dispersion modelling of a tritium plume in Lake Ontario. Chalk River, Ont. :Environmental Research Branch, chalk River Laboratories: 1996., 1996.

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4

Klukas, M. H. Aquatic dispersion modelling of a tritium plume in Lake Ontario. Chalk River, Ont: Environmental Research Branch, Chalk River Laboratories, 1996.

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5

FRAM, the frequency resonance analysis method: Modelling complex socio-technical systems. Farnham, Surrey, UK England: Ashgate, 2012.

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6

Underwood, B. Y. The modelling of gravitational setting in the assessment of the consequences of accidental releases of radioactivity. Luxembourg: Commission of the European Communities, 1985.

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7

Accident Sequence Modelling. Elsevier Applied Science, 1988.

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8

Myasnikov, V. P., V. G. Danilov, and V. P. Maslov. Mathematical Modelling of the Chernobyl Reactor Accident. Springer-Verlag, 1992.

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9

D, Butland A. T., ed. Progress with modelling the fast reactor subassembly accident. [Winfrith, Dorchester, Dorset, England]: Fast Reator Safety Studies Group, Safety and Engineering Science Division, AEE Winfrith, 1989.

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10

executive, Health and safety. The Derivation and Use of Population Data for Major Hazard Accident Modelling. Health and Safety Executive (HSE), 2002.

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11

IAEA. Fuel Modelling in Accident Conditions: Final Report of a Coordinated Research Project. International Atomic Energy Agency, 2019.

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12

Alonso, A., and C. Gonz<160>lez. Modelling the Chemical Behaviour of Tellurium Species in the Reactor Pressure Vessel and the Reactor Cooling System Under Severe Accident Conditions. European Communities / Union (EUR-OP/OOPEC/OPOCE), 1991.

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13

Luc, Heres, ed. Time in GIS: Issues in spatio-temporal modelling. Nederlandse Commissie voor Geodesie, 2000. http://dx.doi.org/10.54419/v5m55p.

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Most Geographic Information Systems started as a substitute for loose paper maps. These paper maps did not have a built-in time dimension and could only represent history indirectly as a sequence of physically separate images. This was in fact imitated by these first generation systems. The time dimension could only be represented by means of separate files. A minority of Geographic Information Systems however, started their life as a substitute for ordered lists and tables with a link to paper maps. In these lists, the inclusion of a time com-ponent in the form of a data field was quite usual. This method too was copied by the systems that replaced these paper tables. The current trend in the development of Geographic Information Systems is towards the inte-gration of the classical map-oriented concepts with the table-oriented concepts. This often leads to the explicit embedding of the time component in the GIS environment. The Subcommission Geo-Information Models of the Netherlands Geodetic Commission has organized a workshop to discuss the theory and practice of time and history in GIS on 18 May 2000. This publication contains 6 articles prepared for the workshop. The first paper, written by Donna Peuquet, gives a bird’s-eye view of the current state of the art in spatio-temporal database technology and methodology. She is a well-known expert in the field of spatio-temporal information systems and the author of many articles in this field. The second article is written by Monica Wachowicz. She describes what you can do with a GIS once it contains a historical dimension and how you can detect changes in geographic phenomena. Furthermore, her article suggests how geographic visualisation and knowledge discovery techniques can be integrated in a spatio-temporal database. How to record the time dimension in a database is one thing, how to show this dimension to users is another one. In his contribution, Menno-Jan Kraak first tells about the techniques, which were used in the age of paper maps and the limitations these methods had. He goes on to explain what kind of cartographic techniques have been developed since the mass introduc-tion of the computer. Finally he describes the powerful animation methods which currently exist and can be used on CD-ROM and Internet applications. Peter van Oosterom describes how the time dimension is represented in the information sys-tems of the Cadastre and how this is used to publish updates. The Cadastre has a very long tradition in incorporating the time component, which has always been an inherent component of the cadastral registration. In former times this was translated in very precise procedures about how to update the paper maps and registers. Today it is translated in spatio-temporal database design. The article of Luc Heres tells about the time component in the National Road Database, origi-nally designed for traffic accident registration. This is one of the systems with ''table'' roots and with quite a long tradition in handling the time dimension. He elucidates first the core objects in the conceptual model and how time is added. Next, how this model is translated in a logical design and finally how this is technically implemented. Geologists and geophysicians also have a respectable tradition in handling the time dimension in the data they collect. This is illustrated in the last paper, which is written by Ipo Ritsema. He outlines how time is handled in geological and geophysical databases maintained by TNO. By means of some practical cases he illustrates which problems can be encountered and how these can be solved.
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14

IAEA. Fuel Behaviour and Modelling under Severe Transient and Loss of Coolant Accident Conditions: Proceedings of a Technical Meeting Held in Mito, Japan, 18-21 October 2011. International Atomic Energy Agency, 2013.

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15

Hollnagel, Erik. FRAM : the Functional Resonance Analysis Method: Modelling Complex Socio-Technical Systems. Taylor & Francis Group, 2017.

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16

Hollnagel, Erik. FRAM : the Functional Resonance Analysis Method: Modelling Complex Socio-Technical Systems. Taylor & Francis Group, 2017.

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17

Hollnagel, Erik. Fram - The Functional Resonance Analysis Method: Modelling Complex Socio-Technical Systems. Taylor & Francis Group, 2012.

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18

Hollnagel, Erik. FRAM : the Functional Resonance Analysis Method: Modelling Complex Socio-Technical Systems. Taylor & Francis Group, 2017.

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19

Hollnagel, Erik. FRAM : the Functional Resonance Analysis Method: Modelling Complex Socio-Technical Systems. Taylor & Francis Group, 2017.

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20

Agency, International Atomic Energy. Phenomenology, Simulation and Modelling of Accidents in Spent Fuel Pools: IAEA Tecdoc No 1949. International Atomic Energy Agency, 2021.

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21

Sengupta, Debashish. Recent Trends in Modelling of Environmental Contaminants. Springer (India) Private Limited, 2016.

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22

Recent Trends in Modelling of Environmental Contaminants. Springer, 2014.

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23

Sengupta, Debashish. Recent Trends in Modelling of Environmental Contaminants. Springer London, Limited, 2014.

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24

Agency, International Atomic Energy. Modelling of Fuel Behaviour in Design Basis Accidents and Design Extension Conditions: IAEA TecDoc No. 1913. International Atomic Energy Agency, 2020.

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25

Schifano, Norma. Macrovariation. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198804642.003.0004.

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Chapter 4 provides an analysis of the patterns of default verb movement identified in Chapters 2 and 3. First, it shows that the attested macro-typologies are not accidental choices of the languages, but rather stem from a compensatory mechanism between syntax and morphology in licensing the Tense, Aspect, and Mood (TAM) interpretation of the verb, whereby verb movement only occurs in cases of poor paradigmatic instantiation of TAM, that is in cases when TAM chief values are not expressed by synthetic and non-syncretic paradigms. Second, a technical implementation of this proposal is offered which allows the modelling of this instance of variation into a parameter hierarchy, along the lines envisaged by the Rethinking Comparative Syntax research group. To conclude, the data from Brazilian Portuguese are assessed against the expectations of the proposed mechanism.
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26

IAEA. Modelling of Water Cooled Fuel Including Design Basis and Severe Accidents: Proceedings of a Technical Meeting Held in Chengdu, China, 28 October-1 November 2013. International Atomic Energy Agency, 2015.

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