SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4367396573> ?p ?o ?g. }

Showing items 1 to 100 of ±130 with 100 items per page.

W4367396573 endingPage "129591" @default.
W4367396573 startingPage "129591" @default.
W4367396573 abstract "This comprehensive risk assessment, done for a MAR facility in Tarnów, southern Poland, covers two MAR techniques: infiltration ditches and induced bank filtration during the operation and planned potential expansion phases. Two methods were applied: the semi-quantitative risk assessment matrix and the probabilistic risk assessment – fault tree analysis (PRA-FTA), and their advantages and limitations analysed. Both methods examine a range of technical and non-technical risks that may pose a threat to the efficient functioning of the MAR facility in Tarnów, which supplies about 25% of the city’s population with drinking water. It was found that 34 of the 65 risks analysed could pose a low to high risk for the Świerczków well field. The predominant risks potentially reducing MAR efficiency or leading to MAR failure are technical ones. According to the PRA-FTA method, if no preventive measures are taken, there is a 99.5 and 99.3% probability of the MAR system failing during the operational and expansion phases, respectively. The results indicate that the most serious risk is associated with the insufficient initial removal from the recharge river water of suspended solids, which clog infiltration ditches. The risks scored as medium relate to the threat of groundwater inflow from an extensive industrial zone, lying to the east of the well field, and to climate change negatively affecting the quantity of groundwater resources. This is the first example in Poland of a risk assessment for an existing MAR facility and its expansion, based on a broad spectrum of technical and non-technical risks present at the Świerczków well field, using two methods: the risk assessment matrix and PRA-FTA. This case study is a practical example of how to perform a risk analysis for a MAR site. It can make an important contribution to existing knowledge in this field and enrich the subject literature, a particularly relevant aspect given the widespread use of MAR techniques in Central Europe for the supply of drinking water to the public." @default.
W4367396573 created "2023-04-30" @default.
W4367396573 creator A5016669735 @default.
W4367396573 creator A5024416592 @default.
W4367396573 creator A5055564956 @default.
W4367396573 creator A5063093208 @default.
W4367396573 creator A5067890150 @default.
W4367396573 creator A5079769116 @default.
W4367396573 creator A5089052045 @default.
W4367396573 creator A5090830899 @default.
W4367396573 date "2023-06-01" @default.
W4367396573 modified "2023-10-18" @default.
W4367396573 title "Risk assessment for the prevention of managed aquifer recharge (MAR) facility failure during the operation and the expansion phases" @default.
W4367396573 cites W1558478187 @default.
W4367396573 cites W1597171336 @default.
W4367396573 cites W1964834584 @default.
W4367396573 cites W2001757432 @default.
W4367396573 cites W2002528747 @default.
W4367396573 cites W2003423205 @default.
W4367396573 cites W2009497465 @default.
W4367396573 cites W2030210023 @default.
W4367396573 cites W2079282006 @default.
W4367396573 cites W2079724460 @default.
W4367396573 cites W2080769190 @default.
W4367396573 cites W2137749025 @default.
W4367396573 cites W2330254867 @default.
W4367396573 cites W2597593044 @default.
W4367396573 cites W2609611410 @default.
W4367396573 cites W2741278575 @default.
W4367396573 cites W2783071797 @default.
W4367396573 cites W2792414723 @default.
W4367396573 cites W2891785734 @default.
W4367396573 cites W2911494159 @default.
W4367396573 cites W2915508429 @default.
W4367396573 cites W2974922693 @default.
W4367396573 cites W3006050998 @default.
W4367396573 cites W3010592988 @default.
W4367396573 cites W3029363997 @default.
W4367396573 cites W3045423524 @default.
W4367396573 cites W3089791148 @default.
W4367396573 cites W3095371387 @default.
W4367396573 cites W3116339330 @default.
W4367396573 cites W3119066262 @default.
W4367396573 cites W3120653799 @default.
W4367396573 cites W3135900758 @default.
W4367396573 cites W3160992914 @default.
W4367396573 cites W3171927912 @default.
W4367396573 cites W3194863985 @default.
W4367396573 cites W4200137520 @default.
W4367396573 cites W4207058018 @default.
W4367396573 cites W4210693295 @default.
W4367396573 cites W4214734729 @default.
W4367396573 cites W4220700073 @default.
W4367396573 cites W4220947719 @default.
W4367396573 cites W4239784053 @default.
W4367396573 cites W4295204458 @default.
W4367396573 doi "https://doi.org/10.1016/j.jhydrol.2023.129591" @default.
W4367396573 hasPublicationYear "2023" @default.
W4367396573 type Work @default.
W4367396573 citedByCount "1" @default.
W4367396573 countsByYear W43673965732023 @default.
W4367396573 crossrefType "journal-article" @default.
W4367396573 hasAuthorship W4367396573A5016669735 @default.
W4367396573 hasAuthorship W4367396573A5024416592 @default.
W4367396573 hasAuthorship W4367396573A5055564956 @default.
W4367396573 hasAuthorship W4367396573A5063093208 @default.
W4367396573 hasAuthorship W4367396573A5067890150 @default.
W4367396573 hasAuthorship W4367396573A5079769116 @default.
W4367396573 hasAuthorship W4367396573A5089052045 @default.
W4367396573 hasAuthorship W4367396573A5090830899 @default.
W4367396573 hasConcept C107094494 @default.
W4367396573 hasConcept C112930515 @default.
W4367396573 hasConcept C12174686 @default.
W4367396573 hasConcept C127313418 @default.
W4367396573 hasConcept C127413603 @default.
W4367396573 hasConcept C144133560 @default.
W4367396573 hasConcept C174091901 @default.
W4367396573 hasConcept C187320778 @default.
W4367396573 hasConcept C200601418 @default.
W4367396573 hasConcept C2908647359 @default.
W4367396573 hasConcept C38652104 @default.
W4367396573 hasConcept C39432304 @default.
W4367396573 hasConcept C41008148 @default.
W4367396573 hasConcept C524765639 @default.
W4367396573 hasConcept C71924100 @default.
W4367396573 hasConcept C73722673 @default.
W4367396573 hasConcept C75622301 @default.
W4367396573 hasConcept C76177295 @default.
W4367396573 hasConcept C76886044 @default.
W4367396573 hasConcept C99454951 @default.
W4367396573 hasConceptScore W4367396573C107094494 @default.
W4367396573 hasConceptScore W4367396573C112930515 @default.
W4367396573 hasConceptScore W4367396573C12174686 @default.
W4367396573 hasConceptScore W4367396573C127313418 @default.
W4367396573 hasConceptScore W4367396573C127413603 @default.
W4367396573 hasConceptScore W4367396573C144133560 @default.
W4367396573 hasConceptScore W4367396573C174091901 @default.
W4367396573 hasConceptScore W4367396573C187320778 @default.