EMR for Frequency of Failure (FoF) and the Muhlbauer Consequence Method Overview The Muhlbauer EMR method provides a modern, engineering‑based approach to the probability side…
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EMR for Frequency of Failure (FoF) and the Muhlbauer Consequence Method Overview The Muhlbauer EMR method provides a modern, engineering‑based approach to the probability side…
Why EMR Works for All Structures Purpose This page explains why the Muhlbauer Exposure–Mitigation–Resistance (EMR) method, originally developed for pipelines, is inherently applicable to any…
Nuances of Exposure, Mitigation, Resistance In most instances, the categorization of each piece of information into one of these three is obvious—most variables are clearly…
As a worst-case scenario, as well as a means to easily incorporate the intuitive belief that large diameter can mean higher consequence, pipe failures can…
As part of the estimation of overall Resistance, the stress-carrying capacity must be understood. This in turn requires understanding of loads and stresses acting on…
On our way to overall Resistance estimation and, as a part of Effective Wall Thickness determinations, here is some background on stress-inducements that must inform…
As part of the stress-carrying capacity concept underlying Resistance estimations, the use of ‘effective wall thickness’ is introduced here as a modeling convenience. Resistance Estimation…
The Puzzle Today, we have an unprecedented amount of data available to solve this pipeline risk puzzle. Let’s say we want to understand internal corrosion…
Incident Investigation Incident investigation is both a useful input into a risk assessment and a consumer of risk assessment results. In the former, learnings from…