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Optimal scheduling for the decommissioning of nuclear sites

Research output: Contribution to conference - Without ISBN/ISSN Abstract

Published

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Optimal scheduling for the decommissioning of nuclear sites. / Bold, Matthew; Boyacı, Burak; Goerigk, Marc et al.
2019. Abstract from 2nd IMA and OR Society Conference on Mathematics of Operational Research, Birmingham , United Kingdom.

Research output: Contribution to conference - Without ISBN/ISSN Abstract

Harvard

Bold, M, Boyacı, B, Goerigk, M & Kirkbride, C 2019, 'Optimal scheduling for the decommissioning of nuclear sites', 2nd IMA and OR Society Conference on Mathematics of Operational Research, Birmingham , United Kingdom, 25/04/19 - 26/04/19.

APA

Bold, M., Boyacı, B., Goerigk, M., & Kirkbride, C. (2019). Optimal scheduling for the decommissioning of nuclear sites. Abstract from 2nd IMA and OR Society Conference on Mathematics of Operational Research, Birmingham , United Kingdom.

Vancouver

Bold M, Boyacı B, Goerigk M, Kirkbride C. Optimal scheduling for the decommissioning of nuclear sites. 2019. Abstract from 2nd IMA and OR Society Conference on Mathematics of Operational Research, Birmingham , United Kingdom.

Author

Bold, Matthew ; Boyacı, Burak ; Goerigk, Marc et al. / Optimal scheduling for the decommissioning of nuclear sites. Abstract from 2nd IMA and OR Society Conference on Mathematics of Operational Research, Birmingham , United Kingdom.

Bibtex

@conference{1f68288f19d545a094c356b4d0d309fd,
title = "Optimal scheduling for the decommissioning of nuclear sites",
abstract = "With production having come to an end at the Sellafield nuclear site in West Cumbria, focus is now turning to its decommissioning, and the safe clean-up of legacy nuclear waste. The decommissioning project is expect to take in excess of 100 years to complete and cost over $90 billion. Given the large scale and complexity of this project, it is crucial that each task is systematically choreographed according to a carefully designed master schedule, determining both the start time, and duration of each activity, in order to reduce the project completion time. We show how this scheduling problem can be formulated as a continuous time/resource trade-off problem with a single renewably constrained resource, and subsequently propose a heuristic approach to constructing such a master schedule.",
author = "Matthew Bold and Burak Boyacı and Marc Goerigk and Christopher Kirkbride",
year = "2019",
month = apr,
day = "25",
language = "English",
note = "2nd IMA and OR Society Conference on Mathematics of Operational Research : Innovating mathematics for new industrial challenges, 2nd IMA-OR ; Conference date: 25-04-2019 Through 26-04-2019",
url = "https://ima.org.uk/9649/2nd-ima-and-or-society-conference-on-mathematics-of-operational-research/",

}

RIS

TY - CONF

T1 - Optimal scheduling for the decommissioning of nuclear sites

AU - Bold, Matthew

AU - Boyacı, Burak

AU - Goerigk, Marc

AU - Kirkbride, Christopher

N1 - Conference code: 2

PY - 2019/4/25

Y1 - 2019/4/25

N2 - With production having come to an end at the Sellafield nuclear site in West Cumbria, focus is now turning to its decommissioning, and the safe clean-up of legacy nuclear waste. The decommissioning project is expect to take in excess of 100 years to complete and cost over $90 billion. Given the large scale and complexity of this project, it is crucial that each task is systematically choreographed according to a carefully designed master schedule, determining both the start time, and duration of each activity, in order to reduce the project completion time. We show how this scheduling problem can be formulated as a continuous time/resource trade-off problem with a single renewably constrained resource, and subsequently propose a heuristic approach to constructing such a master schedule.

AB - With production having come to an end at the Sellafield nuclear site in West Cumbria, focus is now turning to its decommissioning, and the safe clean-up of legacy nuclear waste. The decommissioning project is expect to take in excess of 100 years to complete and cost over $90 billion. Given the large scale and complexity of this project, it is crucial that each task is systematically choreographed according to a carefully designed master schedule, determining both the start time, and duration of each activity, in order to reduce the project completion time. We show how this scheduling problem can be formulated as a continuous time/resource trade-off problem with a single renewably constrained resource, and subsequently propose a heuristic approach to constructing such a master schedule.

M3 - Abstract

T2 - 2nd IMA and OR Society Conference on Mathematics of Operational Research

Y2 - 25 April 2019 through 26 April 2019

ER -