Capabilities-based planning for energy security at Department of Defense installations:
Gespeichert in:
| 1. Verfasser: | |
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| Format: | Elektronisch E-Book |
| Sprache: | English |
| Veröffentlicht: |
Santa Monica, CA
RAND
[2013]
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| Schlagworte: | |
| Online-Zugang: | FLA01 |
| Beschreibung: | Print version record and CIP data provided by publisher; resource not viewed |
| Beschreibung: | 1 online resource |
| ISBN: | 9780833079138 0833079131 |
Internformat
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| 505 | 8 | |a Department of Defense (DoD) installations rely on the commercial electricity grid for 99 percent of their electricity needs, but extensive energy delivery outages in 2012 have reinforced that the U.S. electricity grid is vulnerable to disruptions from natural hazards and actor-induced outages, such as physical or cyber attacks. In the event of a catastrophic disaster--such as a severe hurricane, massive earthquake, or large-scale terrorist attack--DoD installations would also serve as a base for emergency services. To enhance energy security, DoD has identified diversifying energy sources and increasing efficiency in DoD operations as critical goals. But how to enhance energy security across the portfolio of installations is not clear and several questions remain unanswered: Energy security for how long? Under what conditions? At what cost? The underlying analytical questions are, what critical capabilities do U.S. installations provide, and how can DoD maintain these capabilities during an energy services disruption in the most cost-effective manner? Answering these questions requires a systems approach that incorporates technological, economic, and operational uncertainties. Using portfolio analysis methods for assessing capability options, this paper presents a framework to evaluate choices among energy security strategies for DoD installations. This framework evaluates whether existing or proposed installation energy security strategies enhance DoD capabilities and evaluates strategy cost-effectiveness | |
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Datensatz im Suchindex
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| author | Samaras, Constantine |
| author_facet | Samaras, Constantine |
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| contents | Department of Defense (DoD) installations rely on the commercial electricity grid for 99 percent of their electricity needs, but extensive energy delivery outages in 2012 have reinforced that the U.S. electricity grid is vulnerable to disruptions from natural hazards and actor-induced outages, such as physical or cyber attacks. In the event of a catastrophic disaster--such as a severe hurricane, massive earthquake, or large-scale terrorist attack--DoD installations would also serve as a base for emergency services. To enhance energy security, DoD has identified diversifying energy sources and increasing efficiency in DoD operations as critical goals. But how to enhance energy security across the portfolio of installations is not clear and several questions remain unanswered: Energy security for how long? Under what conditions? At what cost? The underlying analytical questions are, what critical capabilities do U.S. installations provide, and how can DoD maintain these capabilities during an energy services disruption in the most cost-effective manner? Answering these questions requires a systems approach that incorporates technological, economic, and operational uncertainties. Using portfolio analysis methods for assessing capability options, this paper presents a framework to evaluate choices among energy security strategies for DoD installations. This framework evaluates whether existing or proposed installation energy security strategies enhance DoD capabilities and evaluates strategy cost-effectiveness |
| ctrlnum | (ZDB-4-EBU)ocn826458627 (OCoLC)826458627 (DE-599)BVBBV046101030 |
| dewey-full | 355.7068/2 |
| dewey-hundreds | 300 - Social sciences |
| dewey-ones | 355 - Military science |
| dewey-raw | 355.7068/2 |
| dewey-search | 355.7068/2 |
| dewey-sort | 3355.7068 12 |
| dewey-tens | 350 - Public administration and military science |
| discipline | Militärwissenschaft |
| format | Electronic eBook |
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| id | DE-604.BV046101030 |
| illustrated | Not Illustrated |
| indexdate | 2024-07-10T08:35:17Z |
| institution | BVB |
| isbn | 9780833079138 0833079131 |
| language | English |
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| publisher | RAND |
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| spelling | Samaras, Constantine Verfasser aut Capabilities-based planning for energy security at Department of Defense installations Constantine Samaras, Henry H. Willis Santa Monica, CA RAND [2013] 1 online resource txt rdacontent c rdamedia cr rdacarrier Print version record and CIP data provided by publisher; resource not viewed Department of Defense (DoD) installations rely on the commercial electricity grid for 99 percent of their electricity needs, but extensive energy delivery outages in 2012 have reinforced that the U.S. electricity grid is vulnerable to disruptions from natural hazards and actor-induced outages, such as physical or cyber attacks. In the event of a catastrophic disaster--such as a severe hurricane, massive earthquake, or large-scale terrorist attack--DoD installations would also serve as a base for emergency services. To enhance energy security, DoD has identified diversifying energy sources and increasing efficiency in DoD operations as critical goals. But how to enhance energy security across the portfolio of installations is not clear and several questions remain unanswered: Energy security for how long? Under what conditions? At what cost? The underlying analytical questions are, what critical capabilities do U.S. installations provide, and how can DoD maintain these capabilities during an energy services disruption in the most cost-effective manner? Answering these questions requires a systems approach that incorporates technological, economic, and operational uncertainties. Using portfolio analysis methods for assessing capability options, this paper presents a framework to evaluate choices among energy security strategies for DoD installations. This framework evaluates whether existing or proposed installation energy security strategies enhance DoD capabilities and evaluates strategy cost-effectiveness United States / Department of Defense fast United States Department of Defense Energy consumption United States Department of Defense Energy conservation HISTORY / Military / Other bisacsh TECHNOLOGY & ENGINEERING / Military Science bisacsh BUSINESS & ECONOMICS / Infrastructure bisacsh Energy conservation fast Energy consumption fast Energy policy fast Strategic planning fast Strategic planning United States Energy policy United States Willis, Henry H. Sonstige oth Erscheint auch als Druck-Ausgabe Samaras, Constantine Capabilities-based planning for energy security at Department of Defense installations Santa Monica, CA : RAND, [2013] 9780833079107 |
| spellingShingle | Samaras, Constantine Capabilities-based planning for energy security at Department of Defense installations Department of Defense (DoD) installations rely on the commercial electricity grid for 99 percent of their electricity needs, but extensive energy delivery outages in 2012 have reinforced that the U.S. electricity grid is vulnerable to disruptions from natural hazards and actor-induced outages, such as physical or cyber attacks. In the event of a catastrophic disaster--such as a severe hurricane, massive earthquake, or large-scale terrorist attack--DoD installations would also serve as a base for emergency services. To enhance energy security, DoD has identified diversifying energy sources and increasing efficiency in DoD operations as critical goals. But how to enhance energy security across the portfolio of installations is not clear and several questions remain unanswered: Energy security for how long? Under what conditions? At what cost? The underlying analytical questions are, what critical capabilities do U.S. installations provide, and how can DoD maintain these capabilities during an energy services disruption in the most cost-effective manner? Answering these questions requires a systems approach that incorporates technological, economic, and operational uncertainties. Using portfolio analysis methods for assessing capability options, this paper presents a framework to evaluate choices among energy security strategies for DoD installations. This framework evaluates whether existing or proposed installation energy security strategies enhance DoD capabilities and evaluates strategy cost-effectiveness United States / Department of Defense fast United States Department of Defense Energy consumption United States Department of Defense Energy conservation HISTORY / Military / Other bisacsh TECHNOLOGY & ENGINEERING / Military Science bisacsh BUSINESS & ECONOMICS / Infrastructure bisacsh Energy conservation fast Energy consumption fast Energy policy fast Strategic planning fast Strategic planning United States Energy policy United States |
| title | Capabilities-based planning for energy security at Department of Defense installations |
| title_auth | Capabilities-based planning for energy security at Department of Defense installations |
| title_exact_search | Capabilities-based planning for energy security at Department of Defense installations |
| title_full | Capabilities-based planning for energy security at Department of Defense installations Constantine Samaras, Henry H. Willis |
| title_fullStr | Capabilities-based planning for energy security at Department of Defense installations Constantine Samaras, Henry H. Willis |
| title_full_unstemmed | Capabilities-based planning for energy security at Department of Defense installations Constantine Samaras, Henry H. Willis |
| title_short | Capabilities-based planning for energy security at Department of Defense installations |
| title_sort | capabilities based planning for energy security at department of defense installations |
| topic | United States / Department of Defense fast United States Department of Defense Energy consumption United States Department of Defense Energy conservation HISTORY / Military / Other bisacsh TECHNOLOGY & ENGINEERING / Military Science bisacsh BUSINESS & ECONOMICS / Infrastructure bisacsh Energy conservation fast Energy consumption fast Energy policy fast Strategic planning fast Strategic planning United States Energy policy United States |
| topic_facet | United States / Department of Defense United States Department of Defense Energy consumption United States Department of Defense Energy conservation HISTORY / Military / Other TECHNOLOGY & ENGINEERING / Military Science BUSINESS & ECONOMICS / Infrastructure Energy conservation Energy consumption Energy policy Strategic planning Strategic planning United States Energy policy United States |
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