%0 Thesis %A Shull, Casey Allen %D 2019 %T ALGORITHM TO DEVELOP A MODEL PROVIDING SECURITY AND SUSTAINABILITY FOR THE U.S. INFRASTRUCTURE BY PROVIDING INCREMENTAL ELECTRICAL RESTORATION AFTER BLACKOUT %U https://hammer.purdue.edu/articles/thesis/ALGORITHM_TO_DEVELOP_A_MODEL_PROVIDING_SECURITY_AND_SUSTAINABILITY_FOR_THE_U_S_INFRASTRUCTURE_BY_PROVIDING_INCREMENTAL_ELECTRICAL_RESTORATION_AFTER_BLACKOUT/9077159 %R 10.25394/PGS.9077159.v1 %2 https://hammer.purdue.edu/ndownloader/files/16603865 %K security %K sustainability %K mbse %K model %K algorithm approach %K logic %K blackout %K Crisis %K resiliency %K reliability %K infrastructure systems %K Infrastructure design decisions %K utility company %K utility decision maker %K critical infrastructure protection %K Critical Infrastructure Resilience %K National Security %K disaster relief applications %K terrorist attacks %K MBSE %K SysML %K electric utility %K resilient hospitals %K Performance Evaluation; Testing and Simulation of Reliability %X

Is North America vulnerable to widespread electrical blackout from natural or man-made disasters? Yes. Are electric utilities and critical infrastructure (CI) operators prepared to maintain CI operations such as, hospitals, sewage lift stations, food, water, police stations etc., after electrical blackout to maintain National security and sustainability? No. Why? Requirements to prioritize electrical restoration to CI do not exist as a requirement or regulation for electrical distribution operators. Thus, the CI operators cannot maintain services to the public without electricity that provides power for the critical services to function. The problem is that electric utilities are not required to develop or deploy a prioritized systematic plan or procedure to decrease the duration of electrical outage, commonly referred to as blackout. The consequence of local blackout to CI can be multi-billion-dollar financial losses and loss of life for a single outage event attributed to the duration of blackout. This study utilized the review of authoritative literature to answer the question: “Can a plan be developed to decrease the duration of electrical outage to critical infrastructure”. The literature revealed that electric utilities are not required to prioritize electrical restoration efforts and do not have plans available to deploy minimizing the duration of blackout to CI. Thus, this study developed a plan and subsequent model using Model Based System Engineering (MBSE) to decrease the duration of blackout by providing incremental electrical service to CI.

%I Purdue University Graduate School