Search results

Title: Automated Shipping Container Transfer in Chicago (Semester 1 of Unknown), IPRO 307
Creator: Hamernick, Paul, Frost, Alec, Amolegbe, Rafiu, Pamulaparthy, Abhinav, Adcock, Keegan, Chintaluri, Venkata, Hodgson, Graham, Brewster, Christopher
Date: 2005-01, 2004-12
Description: The goal of this IPRO is to design and make a financial analysis of an automated container transport system for the Chicago region.
Sponsorship...
Show moreThe goal of this IPRO is to design and make a financial analysis of an automated container transport system for the Chicago region.
Sponsorship: Bruce Dahnke of Skytech Transportation
Deliverables
Show less

Title: Automated Shipping Container Transfer in Chicago (Semester 1 of Unknown), IPRO 307: Automated Shipping Container Transfer in Chicago IPRO 307 Final Report F04
Creator: Hamernick, Paul, Frost, Alec, Amolegbe, Rafiu, Pamulaparthy, Abhinav, Adcock, Keegan, Chintaluri, Venkata, Hodgson, Graham, Brewster, Christopher
Date: 2005-01, 2004-12
Description: The goal of this IPRO is to design and make a financial analysis of an automated container transport system for the Chicago region.
Sponsorship...
Show moreThe goal of this IPRO is to design and make a financial analysis of an automated container transport system for the Chicago region.
Sponsorship: Bruce Dahnke of Skytech Transportation
Deliverables
Show less

Title: Automated Shipping Container Transfer in Chicago (Semester 1 of Unknown), IPRO 307
Creator: Hamernick, Paul, Frost, Alec, Amolegbe, Rafiu, Pamulaparthy, Abhinav, Adcock, Keegan, Chintaluri, Venkata, Hodgson, Graham, Brewster, Christopher
Date: 2005-01, 2004-12
Description: The goal of this IPRO is to design and make a financial analysis of an automated container transport system for the Chicago region.
Sponsorship...
Show moreThe goal of this IPRO is to design and make a financial analysis of an automated container transport system for the Chicago region.
Sponsorship: Bruce Dahnke of Skytech Transportation
Deliverables
Show less

Title: Automated Shipping Container Transfer in Chicago (Semester 1 of Unknown), IPRO 307: Automated Shipping Container Transfer in Chicago IPRO 307 Abstract F04
Creator: Hamernick, Paul, Frost, Alec, Amolegbe, Rafiu, Pamulaparthy, Abhinav, Adcock, Keegan, Chintaluri, Venkata, Hodgson, Graham, Brewster, Christopher
Date: 2005-01, 2004-12
Description: The goal of this IPRO is to design and make a financial analysis of an automated container transport system for the Chicago region.
Sponsorship...
Show moreThe goal of this IPRO is to design and make a financial analysis of an automated container transport system for the Chicago region.
Sponsorship: Bruce Dahnke of Skytech Transportation
Deliverables
Show less

Title: Heat Driven Refrigeration System (Semester 2 of Unknown), IPRO 357: Heat Driven Refrigeration System IPRO 357 Final Report F04
Creator: Alworth, Tom, Frost, Alec, Vogel, Stefan, Callow, Alex, Kim, Keon, Lee, Donghoon, Ahmadia, Aron, Keen, Andrew, Medrano, Anel, Nortes, Leo, Taher, Tanim
Date: 2005-01, 2004-12
Description: The solution will take the form of a novel system based on a refrigeration cycle driven by heat. The cycle will be built around a "pressure...
Show moreThe solution will take the form of a novel system based on a refrigeration cycle driven by heat. The cycle will be built around a "pressure exchanger" consisting of a piston, along with solenoid valves controlled by a microprocessor. Heat will most likely be obtained through the combustion of biomass such as plant by-products and animal wastes, but will be flexible enough to allow for more conventional fuel types such as kerosene and coal.
Sponsorship: ASHRAE, NCIIA
Deliverables
Show less

Title: Heat Driven Refrigeration System (Semester 2 of Unknown), IPRO 357: Heat Driven Refrigeration System IPRO 357 Project Plan F04
Creator: Alworth, Tom, Frost, Alec, Vogel, Stefan, Callow, Alex, Kim, Keon, Lee, Donghoon, Ahmadia, Aron, Keen, Andrew, Medrano, Anel, Nortes, Leo, Taher, Tanim
Date: 2005-01, 2004-12
Description: The solution will take the form of a novel system based on a refrigeration cycle driven by heat. The cycle will be built around a "pressure...
Show moreThe solution will take the form of a novel system based on a refrigeration cycle driven by heat. The cycle will be built around a "pressure exchanger" consisting of a piston, along with solenoid valves controlled by a microprocessor. Heat will most likely be obtained through the combustion of biomass such as plant by-products and animal wastes, but will be flexible enough to allow for more conventional fuel types such as kerosene and coal.
Sponsorship: ASHRAE, NCIIA
Deliverables
Show less

Title: Heat Driven Refrigeration System (Semester 2 of Unknown), IPRO 357
Creator: Alworth, Tom, Frost, Alec, Vogel, Stefan, Callow, Alex, Kim, Keon, Lee, Donghoon, Ahmadia, Aron, Keen, Andrew, Medrano, Anel, Nortes, Leo, Taher, Tanim
Date: 2005-01, 2004-12
Description: The solution will take the form of a novel system based on a refrigeration cycle driven by heat. The cycle will be built around a "pressure...
Show moreThe solution will take the form of a novel system based on a refrigeration cycle driven by heat. The cycle will be built around a "pressure exchanger" consisting of a piston, along with solenoid valves controlled by a microprocessor. Heat will most likely be obtained through the combustion of biomass such as plant by-products and animal wastes, but will be flexible enough to allow for more conventional fuel types such as kerosene and coal.
Sponsorship: ASHRAE, NCIIA
Deliverables
Show less

Title: Heat Driven Refrigeration System (Semester 2 of Unknown), IPRO 357: Heat Driven Refrigeration System IPRO 357 Abstract F04
Creator: Alworth, Tom, Frost, Alec, Vogel, Stefan, Callow, Alex, Kim, Keon, Lee, Donghoon, Ahmadia, Aron, Keen, Andrew, Medrano, Anel, Nortes, Leo, Taher, Tanim
Date: 2005-01, 2004-12
Description: The solution will take the form of a novel system based on a refrigeration cycle driven by heat. The cycle will be built around a "pressure...
Show moreThe solution will take the form of a novel system based on a refrigeration cycle driven by heat. The cycle will be built around a "pressure exchanger" consisting of a piston, along with solenoid valves controlled by a microprocessor. Heat will most likely be obtained through the combustion of biomass such as plant by-products and animal wastes, but will be flexible enough to allow for more conventional fuel types such as kerosene and coal.
Sponsorship: ASHRAE, NCIIA
Deliverables
Show less

repository.iit