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A platform for research: civil engineering, architecture and urbanism
The quantitative risk assessment of MINI, MIDI and MAXI Horizontal Directional Drilling Projects applying Fuzzy Fault Tree Analysis
Graphical abstract Display Omitted
Highlights I developed a model for qualitative and quantitative risk assessment of HDD projects. I shown examples of application of the model for MINI, MIDI and MAXI HDD projects. The model allows to consider the installation specificity. I presented the factors determining the risk levels for all the identified events. Applying fuzzy set theory allowed to decrease the uncertainty of conventional FTA.
Abstract The risk level of the HDD project is a key parameter when assessing the project feasibility and making the project pricing. It is also a starting point for introducing the risk management strategy which aims to reduce the number of installation failures and their negative consequences. The objective of this work was to develop a new mathematical model for the qualitative and quantitative risk assessment of HDD projects of various sizes (MINI, MIDI and MAXI), which allows to consider the installation specificity (the optional possibility of applying various tools and machines). The risk assessment was carried out applying the Fuzzy Fault Tree Analysis. The unwanted events were divided into 4 classes: problems with the ground, machines, environment and management. Applying the fuzzy set theory in the proposed model made it possible to decrease the uncertainty, the lack of precision and the difficulties with gaining the crisp values of the basic events probability, which occur in the conventional Fault Tree Analysis. The practical application of the proposed model for the MINI, MIDI and MAXI HDD projects was shown on four examples.
The quantitative risk assessment of MINI, MIDI and MAXI Horizontal Directional Drilling Projects applying Fuzzy Fault Tree Analysis
Graphical abstract Display Omitted
Highlights I developed a model for qualitative and quantitative risk assessment of HDD projects. I shown examples of application of the model for MINI, MIDI and MAXI HDD projects. The model allows to consider the installation specificity. I presented the factors determining the risk levels for all the identified events. Applying fuzzy set theory allowed to decrease the uncertainty of conventional FTA.
Abstract The risk level of the HDD project is a key parameter when assessing the project feasibility and making the project pricing. It is also a starting point for introducing the risk management strategy which aims to reduce the number of installation failures and their negative consequences. The objective of this work was to develop a new mathematical model for the qualitative and quantitative risk assessment of HDD projects of various sizes (MINI, MIDI and MAXI), which allows to consider the installation specificity (the optional possibility of applying various tools and machines). The risk assessment was carried out applying the Fuzzy Fault Tree Analysis. The unwanted events were divided into 4 classes: problems with the ground, machines, environment and management. Applying the fuzzy set theory in the proposed model made it possible to decrease the uncertainty, the lack of precision and the difficulties with gaining the crisp values of the basic events probability, which occur in the conventional Fault Tree Analysis. The practical application of the proposed model for the MINI, MIDI and MAXI HDD projects was shown on four examples.
The quantitative risk assessment of MINI, MIDI and MAXI Horizontal Directional Drilling Projects applying Fuzzy Fault Tree Analysis
Gierczak, Maria (author)
Tunnelling and Underground Space Technology ; 43 ; 67-77
2014-04-04
11 pages
Article (Journal)
Electronic Resource
English
The qualitative risk assessment of MINI, MIDI and MAXI horizontal directional drilling projects
| Online Contents | 2014
| British Library Conference Proceedings | 2010