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3. Another approach to wind: vertical-axis turbines may avoid the limitations of today's standard propeller-like machines

Author

Peace, Steven

Subjects
Air-turbines -- Varieties -- Design and construction, Business, Engineering and manufacturing industries, Varieties, Design and construction
Abstract

THE IMAGE OF MODERN WIND TURBINES has finally crept into the public consciousness. At long last, the Dutch windmill and the Great Plains wind-powered water pump have been supplanted by [...]

Published
2004

4. Seabasing and joint expeditionary logistics

Author

Bender, Amy, Cottle, Jacob, Craddock, Timothy, Dowd, Justin, Feese, Rick, Foster, Brett, Gainey, John, Jimenez, Ivan, Johnson, Brent, Johnson, Terry, Lemmon, John, Levendofske, Michael, Liskey, Dale, Oliphant, Anthony, Olvera, Daniel, Partington, William, Peace, Steven, Tanks, Paul, SEA Cohort SEA-6, SEA Cohort SEA-6, SEA-6, and Systems Engineering (SE)

Abstract

Student Integrated Project Includes supplementary material. Executive Summary and Presentation. Recent conflicts such as Operation Desert Shield/Storm and Operation Iraqi Freedom highlight the logistics difficulties the United States faces by relying on foreign access and infrastructure and large supply stockpiles ashore to support expeditionary operations. The Navy's transformational vision for the future, Sea Power 21, involves Seabasing as a way to address these difficulties by projecting and sustaining joint forces globally from the sea. This study analyzes logistics flow to, within and from a Sea Base to an objective, and the architectures and systems needed to rapidly deploy and sustain a brigade-size force. Utilizing the Joint Capabilities Integration and Development System (JCIDS), this study incorporates a systems engineering framework to examine current systems, programs of record and proposed systems out to the year 2025. Several capability gaps that hamper a brigade-size force from seizing the initiative anywhere in the world within a 10-day period point to a need for dedicated lift assets, such as high-speed surface ships or lighter-than-air ships, to facilitate the rapid formation of the Sea Base. Additionally, the study identifies the need for large-payload/high-speed or load-once/direct-to- objective connector capabilities to minimize the number of at-sea transfers required to employ such a force from the Sea Base in 10 hrs. With these gaps addressed, the Joint Expeditionary Brigade is supportable from the Sea Base. http://archive.org/details/seabasingndjoint109456918 NA

Published
2004

5. Joint ACCESS: high-speed assault connector (HSAC) for joint expeditionary logistics

Author

Anil, Kivanc, Avcu, Mehmet, Brisar, Jon, Chaabane, Adnen, Dimas, Sotirios, King, Timothy, Peace, Steven, Perez-Villalonga, Francisco, Peterson, Derek, Reuse, Rolando, Roberts, Scott, Papoulias, Fotis, and Harney, Robert

Subjects
Total Ship Systems Engineering, High Speed Assault Connector, Ship Design, HSAC, BLT, Seabasing, JEB, Sea Base, Batallion Landing Team, Joint Expeditionary Brigade
Abstract

Includes suppmentary material The current notion of seabasing requires that three Battalion Landing Teams (BLT) of a 2025 Joint Expeditionary Brigade (JEB) need to be able to transit from the Sea Base to the objective within a 10 hour period. Of the three BLTs, two of them must be transported by surface craft a distance of no more than 200nm in sea state 4 or less. The two surface bound BLTs need to be loaded onto the transporting craft and delivered to shore, whether it is a port facility or austere beachhead. There is no current or future system of connectors to meet all the time-distance, sea state, and interface flexibility requirements for this aspect of seabasing. To meet these requirements a High Speed Assault Connector (HSAC) is needed which either augments current or replaces existing connector platforms to deliver and support the required forces ashore. The Joint ACCESS is a HSAC that brings the necessary speed, payload capacity, interface capability, and mission flexibility needed to fill the Sea Base to shore transportation gap. With a maximum speed of 43kts and payload capacity of 800LT, 12 Joint ACCESS trimarans can transit 200nm and fully offload in 7 hours. Its beachable design uses a floating bow ramp to reach out to austere beaches, while its combat system suite provides self defense in addition to robust offensive capabilities. http://web.archive.org/web/20050218202650/http://www.nps.navy.mil/tsse/files/2004.htm Approved for public release; distribution is unlimited.

Published
2004

6. Seabasing and joint expeditionary logistics

Author

SEA Cohort SEA-6, SEA-6, Systems Engineering (SE), Bender, Amy, Cottle, Jacob, Craddock, Timothy, Dowd, Justin, Feese, Rick, Foster, Brett, Gainey, John, Jimenez, Ivan, Johnson, Brent, Johnson, Terry, Lemmon, John, Levendofske, Michael, Liskey, Dale, Oliphant, Anthony, Olvera, Daniel, Partington, William, Peace, Steven, Tanks, Paul, SEA Cohort SEA-6, SEA-6, Systems Engineering (SE), Bender, Amy, Cottle, Jacob, Craddock, Timothy, Dowd, Justin, Feese, Rick, Foster, Brett, Gainey, John, Jimenez, Ivan, Johnson, Brent, Johnson, Terry, Lemmon, John, Levendofske, Michael, Liskey, Dale, Oliphant, Anthony, Olvera, Daniel, Partington, William, Peace, Steven, and Tanks, Paul

Abstract

Recent conflicts such as Operation Desert Shield/Storm and Operation Iraqi Freedom highlight the logistics difficulties the United States faces by relying on foreign access and infrastructure and large supply stockpiles ashore to support expeditionary operations. The Navy's transformational vision for the future, Sea Power 21, involves Seabasing as a way to address these difficulties by projecting and sustaining joint forces globally from the sea. This study analyzes logistics flow to, within and from a Sea Base to an objective, and the architectures and systems needed to rapidly deploy and sustain a brigade-size force. Utilizing the Joint Capabilities Integration and Development System (JCIDS), this study incorporates a systems engineering framework to examine current systems, programs of record and proposed systems out to the year 2025. Several capability gaps that hamper a brigade-size force from seizing the initiative anywhere in the world within a 10-day period point to a need for dedicated lift assets, such as high-speed surface ships or lighter-than-air ships, to facilitate the rapid formation of the Sea Base. Additionally, the study identifies the need for large-payload/high-speed or load-once/direct-to- objective connector capabilities to minimize the number of at-sea transfers required to employ such a force from the Sea Base in 10 hrs. With these gaps addressed, the Joint Expeditionary Brigade is supportable from the Sea Base.

Published
2004

7. Joint ACCESS: high-speed assault connector (HSAC) for joint expeditionary logistics

Author

Papoulias, Fotis, Harney, Robert, Anil, Kivanc, Avcu, Mehmet, Brisar, Jon, Chaabane, Adnen, Dimas, Sotirios, King, Timothy, Peace, Steven, Perez-Villalonga, Francisco, Peterson, Derek, Reuse, Rolando, Roberts, Scott, Papoulias, Fotis, Harney, Robert, Anil, Kivanc, Avcu, Mehmet, Brisar, Jon, Chaabane, Adnen, Dimas, Sotirios, King, Timothy, Peace, Steven, Perez-Villalonga, Francisco, Peterson, Derek, Reuse, Rolando, and Roberts, Scott

Abstract

The current notion of seabasing requires that three Battalion Landing Teams (BLT) of a 2025 Joint Expeditionary Brigade (JEB) need to be able to transit from the Sea Base to the objective within a 10 hour period. Of the three BLTs, two of them must be transported by surface craft a distance of no more than 200nm in sea state 4 or less. The two surface bound BLTs need to be loaded onto the transporting craft and delivered to shore, whether it is a port facility or austere beachhead. There is no current or future system of connectors to meet all the time-distance, sea state, and interface flexibility requirements for this aspect of seabasing. To meet these requirements a High Speed Assault Connector (HSAC) is needed which either augments current or replaces existing connector platforms to deliver and support the required forces ashore. The Joint ACCESS is a HSAC that brings the necessary speed, payload capacity, interface capability, and mission flexibility needed to fill the Sea Base to shore transportation gap. With a maximum speed of 43kts and payload capacity of 800LT, 12 Joint ACCESS trimarans can transit 200nm and fully offload in 7 hours. Its beachable design uses a floating bow ramp to reach out to austere beaches, while its combat system suite provides self defense in addition to robust offensive capabilities.

Published
2004

8. III wind for UK firms

Author

Peace, Steven

Subjects
Business, Business, international, Engineering and manufacturing industries
Abstract

I agree entirely with Fiona Harvey (Comment, 24 October) that although the government is making the right noises over clean energy, it is doing little to actually improve the situation. [...]

Published
2003

9. Seabasing and joint expeditionary logistics

Author

SEA Cohort SEA-6, SEA-6, Systems Engineering (SE), Bender, Amy, Cottle, Jacob, Craddock, Timothy, Dowd, Justin, Feese, Rick, Foster, Brett, Gainey, John, Jimenez, Ivan, Johnson, Brent, Johnson, Terry, Lemmon, John, Levendofske, Michael, Liskey, Dale, Oliphant, Anthony, Olvera, Daniel, Partington, William, Peace, Steven, Tanks, Paul, SEA Cohort SEA-6, SEA-6, Systems Engineering (SE), Bender, Amy, Cottle, Jacob, Craddock, Timothy, Dowd, Justin, Feese, Rick, Foster, Brett, Gainey, John, Jimenez, Ivan, Johnson, Brent, Johnson, Terry, Lemmon, John, Levendofske, Michael, Liskey, Dale, Oliphant, Anthony, Olvera, Daniel, Partington, William, Peace, Steven, and Tanks, Paul

Abstract

Student Integrated Project, Includes supplementary material. Executive Summary and Presentation., Recent conflicts such as Operation Desert Shield/Storm and Operation Iraqi Freedom highlight the logistics difficulties the United States faces by relying on foreign access and infrastructure and large supply stockpiles ashore to support expeditionary operations. The Navy's transformational vision for the future, Sea Power 21, involves Seabasing as a way to address these difficulties by projecting and sustaining joint forces globally from the sea. This study analyzes logistics flow to, within and from a Sea Base to an objective, and the architectures and systems needed to rapidly deploy and sustain a brigade-size force. Utilizing the Joint Capabilities Integration and Development System (JCIDS), this study incorporates a systems engineering framework to examine current systems, programs of record and proposed systems out to the year 2025. Several capability gaps that hamper a brigade-size force from seizing the initiative anywhere in the world within a 10-day period point to a need for dedicated lift assets, such as high-speed surface ships or lighter-than-air ships, to facilitate the rapid formation of the Sea Base. Additionally, the study identifies the need for large-payload/high-speed or load-once/direct-to- objective connector capabilities to minimize the number of at-sea transfers required to employ such a force from the Sea Base in 10 hrs. With these gaps addressed, the Joint Expeditionary Brigade is supportable from the Sea Base., http://archive.org/details/seabasingndjoint109456918, NA

10. Seabasing and joint expeditionary logistics

Author

SEA Cohort SEA-6, SEA-6, Systems Engineering (SE), Bender, Amy, Cottle, Jacob, Craddock, Timothy, Dowd, Justin, Feese, Rick, Foster, Brett, Gainey, John, Jimenez, Ivan, Johnson, Brent, Johnson, Terry, Lemmon, John, Levendofske, Michael, Liskey, Dale, Oliphant, Anthony, Olvera, Daniel, Partington, William, Peace, Steven, Tanks, Paul, SEA Cohort SEA-6, SEA-6, Systems Engineering (SE), Bender, Amy, Cottle, Jacob, Craddock, Timothy, Dowd, Justin, Feese, Rick, Foster, Brett, Gainey, John, Jimenez, Ivan, Johnson, Brent, Johnson, Terry, Lemmon, John, Levendofske, Michael, Liskey, Dale, Oliphant, Anthony, Olvera, Daniel, Partington, William, Peace, Steven, and Tanks, Paul

Abstract

Student Integrated Project, Includes supplementary material. Executive Summary and Presentation., Recent conflicts such as Operation Desert Shield/Storm and Operation Iraqi Freedom highlight the logistics difficulties the United States faces by relying on foreign access and infrastructure and large supply stockpiles ashore to support expeditionary operations. The Navy's transformational vision for the future, Sea Power 21, involves Seabasing as a way to address these difficulties by projecting and sustaining joint forces globally from the sea. This study analyzes logistics flow to, within and from a Sea Base to an objective, and the architectures and systems needed to rapidly deploy and sustain a brigade-size force. Utilizing the Joint Capabilities Integration and Development System (JCIDS), this study incorporates a systems engineering framework to examine current systems, programs of record and proposed systems out to the year 2025. Several capability gaps that hamper a brigade-size force from seizing the initiative anywhere in the world within a 10-day period point to a need for dedicated lift assets, such as high-speed surface ships or lighter-than-air ships, to facilitate the rapid formation of the Sea Base. Additionally, the study identifies the need for large-payload/high-speed or load-once/direct-to- objective connector capabilities to minimize the number of at-sea transfers required to employ such a force from the Sea Base in 10 hrs. With these gaps addressed, the Joint Expeditionary Brigade is supportable from the Sea Base., http://archive.org/details/seabasingndjoint109456918, NA

11. Joint ACCESS: high-speed assault connector (HSAC) for joint expeditionary logistics

Author

Papoulias, Fotis, Harney, Robert, Anil, Kivanc, Avcu, Mehmet, Brisar, Jon, Chaabane, Adnen, Dimas, Sotirios, King, Timothy, Peace, Steven, Perez-Villalonga, Francisco, Peterson, Derek, Reuse, Rolando, Roberts, Scott, Papoulias, Fotis, Harney, Robert, Anil, Kivanc, Avcu, Mehmet, Brisar, Jon, Chaabane, Adnen, Dimas, Sotirios, King, Timothy, Peace, Steven, Perez-Villalonga, Francisco, Peterson, Derek, Reuse, Rolando, and Roberts, Scott

Abstract

Includes suppmentary material, The current notion of seabasing requires that three Battalion Landing Teams (BLT) of a 2025 Joint Expeditionary Brigade (JEB) need to be able to transit from the Sea Base to the objective within a 10 hour period. Of the three BLTs, two of them must be transported by surface craft a distance of no more than 200nm in sea state 4 or less. The two surface bound BLTs need to be loaded onto the transporting craft and delivered to shore, whether it is a port facility or austere beachhead. There is no current or future system of connectors to meet all the time-distance, sea state, and interface flexibility requirements for this aspect of seabasing. To meet these requirements a High Speed Assault Connector (HSAC) is needed which either augments current or replaces existing connector platforms to deliver and support the required forces ashore. The Joint ACCESS is a HSAC that brings the necessary speed, payload capacity, interface capability, and mission flexibility needed to fill the Sea Base to shore transportation gap. With a maximum speed of 43kts and payload capacity of 800LT, 12 Joint ACCESS trimarans can transit 200nm and fully offload in 7 hours. Its beachable design uses a floating bow ramp to reach out to austere beaches, while its combat system suite provides self defense in addition to robust offensive capabilities., http://web.archive.org/web/20050218202650/http://www.nps.navy.mil/tsse/files/2004.htm, Approved for public release; distribution is unlimited.

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