Classification of Ground Water Resources for Emergency Supply
The article deals with the classification of alternative water resources in terms of potential risks which is the prerequisite for incorporating these water resources to the emergency plans. The classification is based on the quantification of risks resulting from possible damage, disruption or total destruction of water resource caused by natural and anthropogenic hazards, assessment of water quality and availability, traffic accessibility of the assessed resource and finally its water yield. The aim is to achieve the development of an integrated rescue system, which will be capable of supplying the population with drinking water on the whole stricken territory during the states of emergency.
[1] Bakos, E., Bozek, A., Caslavsky, M., Bozek, F. Emergency Water
Supply II. Vulnerability of Particular Selected Water Resource. In Niola,
V., Ng, K. (Eds.). Recent Researches in Chemistry, Biology, Environment & Culture. Proceedings of the 9th WSEAS International
Conference on Environment, Ecosystems and Development (EED'11).
Montreux: WSEAS Press, 2011, pp. 17-21. ISBN 978-1-61804-060-2.
[2] Krocova, S., Lindovsky M. Providing the population and entities
of critical infrastructure with drinking water in emergency situations
on the territory of the Czech Republic. In the Proceedings of the XVIth
International Conference VODA ZLÍN, Zlín: Moravská vodárenská, plc., 2012, pp. 21-30. ISBN 978-80-260-1468-3.
[3] Ministry of Agriculture of the Czech Republic (MoA CR). Methodological Instructions of the MoA CR to Ensure the Standard
Procedure to be followed by Regional and Municipal Authorities,
the Authority of the Capital of Prague and its City Parts, in Emergency Water Supply provided by the Emergency Water Supply Service during
the Extraordinary Events, Emergency and Crisis Situations. Governmental Bulletin for Regional and Municipal Authorities, Article
3, 2011, pp. 42-46.
[4] Ministry of Agriculture of the Czech Republic (MoA CR). MoA
Methodical Instructions for Selecting and Maintaining the Emergency
Water Supply Resources. Bulletin of MoA CR, Article 3, 2002, pp. 1-10.
[5] Warner, M. L., Preston, E. H. A Review of EIA Methodologies.
Washington, D.C.: U.S. EPA, 1974.
[6] Wells, G. Major Hazards and their Management. 1st Ed. Rugby:
The Institution of Chemical Engineers, 1997. ISBN 0-85295-368-2.
[7] Fishburn, P. C. Utility Theory for Decision-Making. 1st Ed. New York:
J.Wiley & Son, 1970.
[8] Bozek, F., Dvorak, J., Caslavsky, M. Sources for Emergency Water
Supply I. Hazard Identification. In Demiralp, M., Bojkovic, Z.,
Repanovici A. (Eds.). Mathematical Methods and Techniques
in Engineering & Environmental Science. Proceedings of the 4th
WSEAS International Conference on Natural Hazards (NAHA'11).
Catania: WSEAS Press, 2011, pp. 85-90. ISBN 978-1-61804-046-6.
[9] Bozek, F. et al. Sources for Emergency Water Supply III. Risk Assessment. In Thomas, G. et al. (Eds.). Recent Researches In Energy,
Environment and Landscape Architecture. Proceedings of 7th
IASME/WSEAS International Conference on Energy, Environment,
Ecosystems and Sustainable Development (EEESD'11). Angers:
WSEAS Press, 2011, pp 37-42. ISBN 978-1-61804-052-7.
[10] Ministry of Health (MoH). Decree No. 252/2004 Coll., laying down
hygiene requirements for drinking and warm water, frequency and scope
of drinking water checks as amended by the Decrees No 187/2005 Coll.
and No 293/2006 Coll. Prague: MoF, 2004.
[11] National Institute of Public Health (NIPH). Emergency Drinking Water
Supply. Methodical Recommendation of NIPH - National Referential
Centre for Drinking Water. Prague: NIPH, 2007.
[12] North Atlantic Treaty Organization (NATO). STANAG 2885: Engr
(Edition 4) (Ratification draft 1) - Emergency Supply of Water in War. Brussels: NATO Standardization Agency, 2003, 38 pp. NSA (ARMY)
0170-ENGR2885.
[1] Bakos, E., Bozek, A., Caslavsky, M., Bozek, F. Emergency Water
Supply II. Vulnerability of Particular Selected Water Resource. In Niola,
V., Ng, K. (Eds.). Recent Researches in Chemistry, Biology, Environment & Culture. Proceedings of the 9th WSEAS International
Conference on Environment, Ecosystems and Development (EED'11).
Montreux: WSEAS Press, 2011, pp. 17-21. ISBN 978-1-61804-060-2.
[2] Krocova, S., Lindovsky M. Providing the population and entities
of critical infrastructure with drinking water in emergency situations
on the territory of the Czech Republic. In the Proceedings of the XVIth
International Conference VODA ZLÍN, Zlín: Moravská vodárenská, plc., 2012, pp. 21-30. ISBN 978-80-260-1468-3.
[3] Ministry of Agriculture of the Czech Republic (MoA CR). Methodological Instructions of the MoA CR to Ensure the Standard
Procedure to be followed by Regional and Municipal Authorities,
the Authority of the Capital of Prague and its City Parts, in Emergency Water Supply provided by the Emergency Water Supply Service during
the Extraordinary Events, Emergency and Crisis Situations. Governmental Bulletin for Regional and Municipal Authorities, Article
3, 2011, pp. 42-46.
[4] Ministry of Agriculture of the Czech Republic (MoA CR). MoA
Methodical Instructions for Selecting and Maintaining the Emergency
Water Supply Resources. Bulletin of MoA CR, Article 3, 2002, pp. 1-10.
[5] Warner, M. L., Preston, E. H. A Review of EIA Methodologies.
Washington, D.C.: U.S. EPA, 1974.
[6] Wells, G. Major Hazards and their Management. 1st Ed. Rugby:
The Institution of Chemical Engineers, 1997. ISBN 0-85295-368-2.
[7] Fishburn, P. C. Utility Theory for Decision-Making. 1st Ed. New York:
J.Wiley & Son, 1970.
[8] Bozek, F., Dvorak, J., Caslavsky, M. Sources for Emergency Water
Supply I. Hazard Identification. In Demiralp, M., Bojkovic, Z.,
Repanovici A. (Eds.). Mathematical Methods and Techniques
in Engineering & Environmental Science. Proceedings of the 4th
WSEAS International Conference on Natural Hazards (NAHA'11).
Catania: WSEAS Press, 2011, pp. 85-90. ISBN 978-1-61804-046-6.
[9] Bozek, F. et al. Sources for Emergency Water Supply III. Risk Assessment. In Thomas, G. et al. (Eds.). Recent Researches In Energy,
Environment and Landscape Architecture. Proceedings of 7th
IASME/WSEAS International Conference on Energy, Environment,
Ecosystems and Sustainable Development (EEESD'11). Angers:
WSEAS Press, 2011, pp 37-42. ISBN 978-1-61804-052-7.
[10] Ministry of Health (MoH). Decree No. 252/2004 Coll., laying down
hygiene requirements for drinking and warm water, frequency and scope
of drinking water checks as amended by the Decrees No 187/2005 Coll.
and No 293/2006 Coll. Prague: MoF, 2004.
[11] National Institute of Public Health (NIPH). Emergency Drinking Water
Supply. Methodical Recommendation of NIPH - National Referential
Centre for Drinking Water. Prague: NIPH, 2007.
[12] North Atlantic Treaty Organization (NATO). STANAG 2885: Engr
(Edition 4) (Ratification draft 1) - Emergency Supply of Water in War. Brussels: NATO Standardization Agency, 2003, 38 pp. NSA (ARMY)
0170-ENGR2885.
@article{"International Journal of Earth, Energy and Environmental Sciences:59033", author = "František Bozek and Alexandr Bozek and Alena Bumbova and Eduard Bakos and Jiri Dvorak", title = "Classification of Ground Water Resources for Emergency Supply", abstract = "The article deals with the classification of alternative water resources in terms of potential risks which is the prerequisite for incorporating these water resources to the emergency plans. The classification is based on the quantification of risks resulting from possible damage, disruption or total destruction of water resource caused by natural and anthropogenic hazards, assessment of water quality and availability, traffic accessibility of the assessed resource and finally its water yield. The aim is to achieve the development of an integrated rescue system, which will be capable of supplying the population with drinking water on the whole stricken territory during the states of emergency.
", keywords = "Classification, Emergency Supply, Risk, Water Standby Resource.", volume = "6", number = "11", pages = "716-4", }
