Selecting Remediation Technologies Through A 'Technical Risk' Index. An Application of Multi-Attribute Utility Theory.

Abstract

This study applies multi-attribute utility theory to the DOE's problem of selecting the least risky technologies to develop. It focuses on two aspects of the technical risks involved with emerging technologies: the risk of successful development (measured by the likelihood of successful R&D completion within seven years) and the risk of successful implementation in the field (measured by the likelihood of the technology performing as anticipated). Three experienced contractors working with the Landfill Stabilization Focus Area served in the roles of DOE technology managers. Their preferences, expressed as MAUT utility functions, were assessed for all seven functional remediation processes. These utilities are plotted as three-dimensional surfaces over a plane formed by the two technical risk measures, graphically depicting the trade-offs each 'decision maker' felt was appropriate between the two measures. Their utility surfaces for treatment technologies were then used with a set often treatment methods for which expert estimates of the two risk measures were available. The resulting rankings of technologies are analyzed to examine the suitability of the methodology. Recommendations for the use of this approach with real DOE managers are presented.

Document Details

Document Type

Technical Report

Publication Date

Jan 20, 1996

Accession Number

ADA310974

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