Search results
(1 - 11 of 11)
- 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
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- 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
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- 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
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- 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
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- Title
- Design and Economic Evaluations of Biorefinery Operations (semester?), IPRO 347: Eval of Biorefinery IPRO 347 IPRO Day Presentation Sp06
- Creator
- Niekoo, Abbasian, Agose, Daisy, Arguijo, Susanna, Hogan, Brian, Jung, Minsuk, Pelae, Raisa, Roberts, Ben, Kyaagba, Tor, Macdougall, Chris, Malacina, Adam, Michael, Adam, Michael, Henry, Demarah, Daniel, Newberg, Phil, Ocwieja, Sarah, Patti, Julie, Vann, Adam, Keen, Andrew, Woo, Hyun, Zarate, Nyah
- Date
- 2006-05, 2006-05
- Description
-
The IPRO team was successful in designing a process that converts biomass into liquid fuels for transportation. The biomass chosen was cow...
Show moreThe IPRO team was successful in designing a process that converts biomass into liquid fuels for transportation. The biomass chosen was cow manure because of two main reasons. The abundance of cows in southern Wisconsin provides an ideal place for the process to be built. Also, because most other types of potential biomasses currently have uses, manure was favorable. The process was split into three sections: gasification, gas clean-up and Fischer-Tropsch (FT) reactor.
Deliverables for IPRO 347: Design and Economic Evaluations of Biorefinery Operations for the spring 2006 semester
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- Title
- Design and Economic Evaluations of Biorefinery Operations (semester?), IPRO 347
- Creator
- Niekoo, Abbasian, Agose, Daisy, Arguijo, Susanna, Hogan, Brian, Jung, Minsuk, Pelae, Raisa, Roberts, Ben, Kyaagba, Tor, Macdougall, Chris, Malacina, Adam, Michael, Adam, Michael, Henry, Demarah, Daniel, Newberg, Phil, Ocwieja, Sarah, Patti, Julie, Vann, Adam, Keen, Andrew, Woo, Hyun, Zarate, Nyah
- Date
- 2006-05, 2006-05
- Description
-
The IPRO team was successful in designing a process that converts biomass into liquid fuels for transportation. The biomass chosen was cow...
Show moreThe IPRO team was successful in designing a process that converts biomass into liquid fuels for transportation. The biomass chosen was cow manure because of two main reasons. The abundance of cows in southern Wisconsin provides an ideal place for the process to be built. Also, because most other types of potential biomasses currently have uses, manure was favorable. The process was split into three sections: gasification, gas clean-up and Fischer-Tropsch (FT) reactor.
Deliverables for IPRO 347: Design and Economic Evaluations of Biorefinery Operations for the spring 2006 semester
Show less
- Title
- Design and Economic Evaluations of Biorefinery Operations (semester?), IPRO 347: Eval of Biorefinery IPRO 347 Project Plan Sp06
- Creator
- Niekoo, Abbasian, Agose, Daisy, Arguijo, Susanna, Hogan, Brian, Jung, Minsuk, Pelae, Raisa, Roberts, Ben, Kyaagba, Tor, Macdougall, Chris, Malacina, Adam, Michael, Adam, Michael, Henry, Demarah, Daniel, Newberg, Phil, Ocwieja, Sarah, Patti, Julie, Vann, Adam, Keen, Andrew, Woo, Hyun, Zarate, Nyah
- Date
- 2006-05, 2006-05
- Description
-
The IPRO team was successful in designing a process that converts biomass into liquid fuels for transportation. The biomass chosen was cow...
Show moreThe IPRO team was successful in designing a process that converts biomass into liquid fuels for transportation. The biomass chosen was cow manure because of two main reasons. The abundance of cows in southern Wisconsin provides an ideal place for the process to be built. Also, because most other types of potential biomasses currently have uses, manure was favorable. The process was split into three sections: gasification, gas clean-up and Fischer-Tropsch (FT) reactor.
Deliverables for IPRO 347: Design and Economic Evaluations of Biorefinery Operations for the spring 2006 semester
Show less
- Title
- Design and Economic Evaluations of Biorefinery Operations (semester?), IPRO 347: Eval of Biorefinery IPRO 347 Midterm Report Sp06
- Creator
- Niekoo, Abbasian, Agose, Daisy, Arguijo, Susanna, Hogan, Brian, Jung, Minsuk, Pelae, Raisa, Roberts, Ben, Kyaagba, Tor, Macdougall, Chris, Malacina, Adam, Michael, Adam, Michael, Henry, Demarah, Daniel, Newberg, Phil, Ocwieja, Sarah, Patti, Julie, Vann, Adam, Keen, Andrew, Woo, Hyun, Zarate, Nyah
- Date
- 2006-05, 2006-05
- Description
-
The IPRO team was successful in designing a process that converts biomass into liquid fuels for transportation. The biomass chosen was cow...
Show moreThe IPRO team was successful in designing a process that converts biomass into liquid fuels for transportation. The biomass chosen was cow manure because of two main reasons. The abundance of cows in southern Wisconsin provides an ideal place for the process to be built. Also, because most other types of potential biomasses currently have uses, manure was favorable. The process was split into three sections: gasification, gas clean-up and Fischer-Tropsch (FT) reactor.
Deliverables for IPRO 347: Design and Economic Evaluations of Biorefinery Operations for the spring 2006 semester
Show less
- Title
- Design and Economic Evaluations of Biorefinery Operations (semester?), IPRO 347: Eval of Biorefinery IPRO 347 Poster Sp06
- Creator
- Niekoo, Abbasian, Agose, Daisy, Arguijo, Susanna, Hogan, Brian, Jung, Minsuk, Pelae, Raisa, Roberts, Ben, Kyaagba, Tor, Macdougall, Chris, Malacina, Adam, Michael, Adam, Michael, Henry, Demarah, Daniel, Newberg, Phil, Ocwieja, Sarah, Patti, Julie, Vann, Adam, Keen, Andrew, Woo, Hyun, Zarate, Nyah
- Date
- 2006-05, 2006-05
- Description
-
The IPRO team was successful in designing a process that converts biomass into liquid fuels for transportation. The biomass chosen was cow...
Show moreThe IPRO team was successful in designing a process that converts biomass into liquid fuels for transportation. The biomass chosen was cow manure because of two main reasons. The abundance of cows in southern Wisconsin provides an ideal place for the process to be built. Also, because most other types of potential biomasses currently have uses, manure was favorable. The process was split into three sections: gasification, gas clean-up and Fischer-Tropsch (FT) reactor.
Deliverables for IPRO 347: Design and Economic Evaluations of Biorefinery Operations for the spring 2006 semester
Show less
- Title
- Design and Economic Evaluations of Biorefinery Operations (semester?), IPRO 347: Eval of Biorefinery IPRO 347 Final Report Sp06
- Creator
- Niekoo, Abbasian, Agose, Daisy, Arguijo, Susanna, Hogan, Brian, Jung, Minsuk, Pelae, Raisa, Roberts, Ben, Kyaagba, Tor, Macdougall, Chris, Malacina, Adam, Michael, Adam, Michael, Henry, Demarah, Daniel, Newberg, Phil, Ocwieja, Sarah, Patti, Julie, Vann, Adam, Keen, Andrew, Woo, Hyun, Zarate, Nyah
- Date
- 2006-05, 2006-05
- Description
-
The IPRO team was successful in designing a process that converts biomass into liquid fuels for transportation. The biomass chosen was cow...
Show moreThe IPRO team was successful in designing a process that converts biomass into liquid fuels for transportation. The biomass chosen was cow manure because of two main reasons. The abundance of cows in southern Wisconsin provides an ideal place for the process to be built. Also, because most other types of potential biomasses currently have uses, manure was favorable. The process was split into three sections: gasification, gas clean-up and Fischer-Tropsch (FT) reactor.
Deliverables for IPRO 347: Design and Economic Evaluations of Biorefinery Operations for the spring 2006 semester
Show less
- Title
- Design and Economic Evaluations of Biorefinery Operations (semester?), IPRO 347: Eval of Biorefinery IPRO 347 Abstract Sp06
- Creator
- Niekoo, Abbasian, Agose, Daisy, Arguijo, Susanna, Hogan, Brian, Jung, Minsuk, Pelae, Raisa, Roberts, Ben, Kyaagba, Tor, Macdougall, Chris, Malacina, Adam, Michael, Adam, Michael, Henry, Demarah, Daniel, Newberg, Phil, Ocwieja, Sarah, Patti, Julie, Vann, Adam, Keen, Andrew, Woo, Hyun, Zarate, Nyah
- Date
- 2006-05, 2006-05
- Description
-
The IPRO team was successful in designing a process that converts biomass into liquid fuels for transportation. The biomass chosen was cow...
Show moreThe IPRO team was successful in designing a process that converts biomass into liquid fuels for transportation. The biomass chosen was cow manure because of two main reasons. The abundance of cows in southern Wisconsin provides an ideal place for the process to be built. Also, because most other types of potential biomasses currently have uses, manure was favorable. The process was split into three sections: gasification, gas clean-up and Fischer-Tropsch (FT) reactor.
Deliverables for IPRO 347: Design and Economic Evaluations of Biorefinery Operations for the spring 2006 semester
Show less