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Improving the operation of a surface water intake with exceeded redundant capacity using reliability analysis and life cycle costing

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Integrated procedures of analysis have been presented combining both reliability and economical aspects of operation of a water supply system (WSS). The method presented is a practical application of the reliability analysis and life-cycle costing which is a part of a decision support system (DSS) for WSS. It focuses on undisturbed operation of systems with exceeded redundant capacity minding system's reliable and lower possible operational costs. The proposed analytical approach is shown on the example of the surface water intake which is the first subsystem of WSS influencing operation of a whole system. As a part of the study, reliability and economic assessments of various variants of future operation of water intake have been carried out as a basis for choosing most advantageous solution. The authors indicate how exceeded redundant capacity affects applied maintenance method of the system. All calculations of the reliability indicators are based on operating data contained in exploitation logs (2001-2012). The costs have been estimated based on the obtained financial documentation.
Rocznik
Strony
41--53
Opis fizyczny
Bibliogr. 17 poz., tab., rys.
Twórcy
autor
  • Faculty of Energy and Environmental Engineering, Silesian University of Technology, Institute of Water and Wastewater Engineering, Gliwice, Poland
  • Faculty of Energy and Environmental Engineering, Silesian University of Technology, Institute of Water and Wastewater Engineering, Gliwice, Poland
Bibliografia
  • [1] OLMSTEAD S.M., The economics of managing scarce water resources, Rev. Environ. Econ. Pol., 2010, 4 (2), 179.
  • [2] GRAFTON R.Q., WARD M.B., TO H., KOMPAS T., Determinants of residential water consumption: evidence and analysis from a 10-country household survey, Water Resour. Res., 2011, 47, W08537.
  • [3] ZIMOCH I., SZYMIK-GRALEWSKA J., Risk assessment methods of water supply system in terms of reliability and operation cost, [in:] S. Mambretti, C.A. Brebbia (Eds.), Urban Water II, WIT Press, Southampton 2014, 51.
  • [4] SZYMIK-GRALEWSKA J., ZIMOCH I., Optimization of the drinking water coagulation and filtration sys-tem as a result of reliability analysis and life cycle costing, [in:] T. Nowakowski, M. Młyńczak, A. Jodejko-Pietruczuk, S. Werbińska-Wojciechowska (Eds.), Safety and Reliability Methodology and Applications, Taylor and Francis Group, London 2015, 487.
  • [5] ZIMOCH I., SZYMIK-GRALEWSKA J., Operational management of process water treatment systems based on the reliability and economic analysis, Przem. Chem., 2015, 94 (8), 1000 (in Polish).
  • [6] LEGUTKO S., Development trends in machines operation maintenance, Maint. Rel., 2009, 2, 8.
  • [7] WANG Z., HUANG H., DU X., Reliability-based design incorporating several maintenance policies, Maint. Rel., 2009 (4), 37.
  • [8] WIECZYSTY A., Reliability of water supply and sewage systems. Vol. 1. Theory of reliability and its application, Part 1, Cracow University of Technology, Cracow 1990 (in Polish).
  • [9] KAUFMAN R., Life cycle costing: a decision-making tool for capital equipment acquisition, Cost Manage., 1970, March/April, 21.
  • [10] WOODWARD D., Life cycle costing. Theory, information acquisition and application, Int. J. Proj. Manage., 1997, 15 (6), 335.
  • [11] BARONE G., FRANGOPOL D.M., Reliability, risk and lifetime distributions as performance indicators for life-cycle maintenance of deteriorating structures, Rel. Eng. Syst. Safety, 2014, 123 (3), 21.
  • [12] PARRA C., CRESPO A.P., CORTES S., FYQUERO A., On the consideration of reliability in the life cycle cost analysis (LCCA). A review of basic models. Safety and reliability for managing risk, Taylor and Francis Group, London 2006.
  • [13] Directorate-General. Regional Policy, Guide to cost-benefit analysis of investment projects, European Commission, Brussels 2008.
  • [14] EMBLEMSVÅG J., An activity-based life-cycle assessment method, American Society of Mechanical Engineers (ASME), Design Engineering Technical Conference, Sacramento 1997.
  • [15] FABRYCKY W.J., Evaluation in systems engineering, [in:] A.P. Sage (Ed.), Systems engineering and management for sustainable development, EOLSS Publishers, Oxford 2008, 19.
  • [16] KAYRBEKOVA D., Activity-Based Life-Cycle Cost Analysis Design, Operation and Maintenance in Arc-tic Environment, Doct. Thesis, Department of Mechanical and Structural Engineering and Material Science, University of Stavanger, Stavanger 2011.
  • [17] KORPI E., ALA-RISKU T., Life cycle costing. A review of published case studies, Manage. Aud. J., 2008, 23 (3), 240.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-95b26157-27b8-4ca2-892c-3dc6f17f86ca
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