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(1 - 20 of 22)
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- Title
- Solid Fuel from Biomass for Cogeneration (Semester Unknown) IPRO 349: SolidFuelFromBiomassForCogenerationIPRO349FinalPresentationSp09
- Creator
- Brazzale, Ross, Bryne, Richard, Cheever, James, Clark, Michael, Dorr, Elena, Gibbs, Jeremy, Lazicki, Katherine, Prabha Kumar, Abhishek, Vandegrift, Bertha, Williams, Robert, Worthon, Terrika, Yi Yeap, Xin
- Date
- 2009, 2009-05
- Description
-
Renewable energy is one of the most important and widely researched topics today. It is classically defined as any form of energy that comes...
Show moreRenewable energy is one of the most important and widely researched topics today. It is classically defined as any form of energy that comes from renewable sources and, for all practical purposes, cannot be depleted. This may include solar, wind, or geothermal power, as well as biomass or biofuels. When considering biomass, or any living or recently dead biological material, the chemical energy of the molecules is generally collected through the process of combustion.
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- Title
- Solid Fuel from Biomass for Cogeneration (Semester Unknown) IPRO 349: SolidFuelFromBiomassForCogenerationIPRO349BrochureSp09
- Creator
- Brazzale, Ross, Bryne, Richard, Cheever, James, Clark, Michael, Dorr, Elena, Gibbs, Jeremy, Lazicki, Katherine, Prabha Kumar, Abhishek, Vandegrift, Bertha, Williams, Robert, Worthon, Terrika, Yi Yeap, Xin
- Date
- 2009, 2009-05
- Description
-
Renewable energy is one of the most important and widely researched topics today. It is classically defined as any form of energy that comes...
Show moreRenewable energy is one of the most important and widely researched topics today. It is classically defined as any form of energy that comes from renewable sources and, for all practical purposes, cannot be depleted. This may include solar, wind, or geothermal power, as well as biomass or biofuels. When considering biomass, or any living or recently dead biological material, the chemical energy of the molecules is generally collected through the process of combustion.
Deliverables
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- Title
- Solid Fuel from Biomass for Cogeneration (Semester Unknown) IPRO 349: SolidFuelFromBiomassForCogenerationIPRO349ProjectPlanSp09
- Creator
- Brazzale, Ross, Bryne, Richard, Cheever, James, Clark, Michael, Dorr, Elena, Gibbs, Jeremy, Lazicki, Katherine, Prabha Kumar, Abhishek, Vandegrift, Bertha, Williams, Robert, Worthon, Terrika, Yi Yeap, Xin
- Date
- 2009, 2009-05
- Description
-
Renewable energy is one of the most important and widely researched topics today. It is classically defined as any form of energy that comes...
Show moreRenewable energy is one of the most important and widely researched topics today. It is classically defined as any form of energy that comes from renewable sources and, for all practical purposes, cannot be depleted. This may include solar, wind, or geothermal power, as well as biomass or biofuels. When considering biomass, or any living or recently dead biological material, the chemical energy of the molecules is generally collected through the process of combustion.
Deliverables
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- Title
- Solid Fuel from Biomass for Cogeneration (Semester Unknown) IPRO 349: SolidFuelFromBiomassForCogenerationIPRO349Poster2Sp09
- Creator
- Brazzale, Ross, Bryne, Richard, Cheever, James, Clark, Michael, Dorr, Elena, Gibbs, Jeremy, Lazicki, Katherine, Prabha Kumar, Abhishek, Vandegrift, Bertha, Williams, Robert, Worthon, Terrika, Yi Yeap, Xin
- Date
- 2009, 2009-05
- Description
-
Renewable energy is one of the most important and widely researched topics today. It is classically defined as any form of energy that comes...
Show moreRenewable energy is one of the most important and widely researched topics today. It is classically defined as any form of energy that comes from renewable sources and, for all practical purposes, cannot be depleted. This may include solar, wind, or geothermal power, as well as biomass or biofuels. When considering biomass, or any living or recently dead biological material, the chemical energy of the molecules is generally collected through the process of combustion.
Deliverables
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- Title
- Solid Fuel from Biomass for Cogeneration (Semester Unknown) IPRO 349
- Creator
- Brazzale, Ross, Bryne, Richard, Cheever, James, Clark, Michael, Dorr, Elena, Gibbs, Jeremy, Lazicki, Katherine, Prabha Kumar, Abhishek, Vandegrift, Bertha, Williams, Robert, Worthon, Terrika, Yi Yeap, Xin
- Date
- 2009, 2009-05
- Description
-
Renewable energy is one of the most important and widely researched topics today. It is classically defined as any form of energy that comes...
Show moreRenewable energy is one of the most important and widely researched topics today. It is classically defined as any form of energy that comes from renewable sources and, for all practical purposes, cannot be depleted. This may include solar, wind, or geothermal power, as well as biomass or biofuels. When considering biomass, or any living or recently dead biological material, the chemical energy of the molecules is generally collected through the process of combustion.
Deliverables
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- Title
- Solid Fuel from Biomass for Cogeneration (Semester Unknown) IPRO 349: SolidFuelFromBiomassForCogenerationIPRO349MidTermPresentationSp09
- Creator
- Brazzale, Ross, Bryne, Richard, Cheever, James, Clark, Michael, Dorr, Elena, Gibbs, Jeremy, Lazicki, Katherine, Prabha Kumar, Abhishek, Vandegrift, Bertha, Williams, Robert, Worthon, Terrika, Yi Yeap, Xin
- Date
- 2009, 2009-05
- Description
-
Renewable energy is one of the most important and widely researched topics today. It is classically defined as any form of energy that comes...
Show moreRenewable energy is one of the most important and widely researched topics today. It is classically defined as any form of energy that comes from renewable sources and, for all practical purposes, cannot be depleted. This may include solar, wind, or geothermal power, as well as biomass or biofuels. When considering biomass, or any living or recently dead biological material, the chemical energy of the molecules is generally collected through the process of combustion.
Deliverables
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- Title
- Solid Fuel from Biomass for Cogeneration (Semester Unknown) IPRO 349: SolidFuelFromBiomassForCogenerationIPRO349FinalReportSp09
- Creator
- Brazzale, Ross, Bryne, Richard, Cheever, James, Clark, Michael, Dorr, Elena, Gibbs, Jeremy, Lazicki, Katherine, Prabha Kumar, Abhishek, Vandegrift, Bertha, Williams, Robert, Worthon, Terrika, Yi Yeap, Xin
- Date
- 2009, 2009-05
- Description
-
Renewable energy is one of the most important and widely researched topics today. It is classically defined as any form of energy that comes...
Show moreRenewable energy is one of the most important and widely researched topics today. It is classically defined as any form of energy that comes from renewable sources and, for all practical purposes, cannot be depleted. This may include solar, wind, or geothermal power, as well as biomass or biofuels. When considering biomass, or any living or recently dead biological material, the chemical energy of the molecules is generally collected through the process of combustion.
Deliverables
Show less
- Title
- Solid Fuel from Biomass for Cogeneration (Semester Unknown) IPRO 349: SolidFuelFromBiomassForCogenerationIPRO349Poster1Sp09
- Creator
- Brazzale, Ross, Bryne, Richard, Cheever, James, Clark, Michael, Dorr, Elena, Gibbs, Jeremy, Lazicki, Katherine, Prabha Kumar, Abhishek, Vandegrift, Bertha, Williams, Robert, Worthon, Terrika, Yi Yeap, Xin
- Date
- 2009, 2009-05
- Description
-
Renewable energy is one of the most important and widely researched topics today. It is classically defined as any form of energy that comes...
Show moreRenewable energy is one of the most important and widely researched topics today. It is classically defined as any form of energy that comes from renewable sources and, for all practical purposes, cannot be depleted. This may include solar, wind, or geothermal power, as well as biomass or biofuels. When considering biomass, or any living or recently dead biological material, the chemical energy of the molecules is generally collected through the process of combustion.
Deliverables
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- Title
- Silver Nanorods As Indicators of Thermal History (Semester Unknown) IPRO 348: SilverNanorodsAsIndicatorsOfThermalHistoryIPRO348BrochureSp10
- Creator
- Nwanga, Shirley, Dado, Mathew, Cheever, James, Mcclelland, Daniel, Lumnitzer, Matt, James, Joshua, Chiem, Edward, Colmenares, Andre, Dorr, Elena, Gomez, Fernando, Jansen, Madeline, Lazicki, Katherine, Marcha, Emmanuel, Mohaimani, Aurash, Payne, Erica, Purcell, Amberl, Raddatz, Andrew, Sever, Michael, Sizer, Charlie, Taracena, Willy, Tilman, Ryan, Vassi, Anna, Wiebe, Meghan
- Date
- 2010, 2010-05
- Description
-
Silver Nanorods As Indicators of Thermal History, heat pum, NaOH,
Deliverables
- Title
- Silver Nanorods As Indicators of Thermal History (Semester Unknown) IPRO 348: SilverNanorodsAsIndicatorsOfThermalHistoryIPRO348FinalReportSp10
- Creator
- Nwanga, Shirley, Dado, Mathew, Cheever, James, Mcclelland, Daniel, Lumnitzer, Matt, James, Joshua, Chiem, Edward, Colmenares, Andre, Dorr, Elena, Gomez, Fernando, Jansen, Madeline, Lazicki, Katherine, Marcha, Emmanuel, Mohaimani, Aurash, Payne, Erica, Purcell, Amberl, Raddatz, Andrew, Sever, Michael, Sizer, Charlie, Taracena, Willy, Tilman, Ryan, Vassi, Anna, Wiebe, Meghan
- Date
- 2010, 2010-05
- Description
-
Silver Nanorods As Indicators of Thermal History, heat pum, NaOH,
Deliverables
- Title
- Silver Nanorods As Indicators of Thermal History (Semester Unknown) IPRO 348: SilverNanorodsAsIndicatorsOfThermalHistoryIPRO348MidTermPresentationSp10
- Creator
- Nwanga, Shirley, Dado, Mathew, Cheever, James, Mcclelland, Daniel, Lumnitzer, Matt, James, Joshua, Chiem, Edward, Colmenares, Andre, Dorr, Elena, Gomez, Fernando, Jansen, Madeline, Lazicki, Katherine, Marcha, Emmanuel, Mohaimani, Aurash, Payne, Erica, Purcell, Amberl, Raddatz, Andrew, Sever, Michael, Sizer, Charlie, Taracena, Willy, Tilman, Ryan, Vassi, Anna, Wiebe, Meghan
- Date
- 2010, 2010-05
- Description
-
Silver Nanorods As Indicators of Thermal History, heat pum, NaOH,
Deliverables
- Title
- Silver Nanorods As Indicators of Thermal History (Semester Unknown) IPRO 348: SilverNanorodsAsIndicatorsOfThermalHistoryIPRO348ProjectPlanSp10
- Creator
- Nwanga, Shirley, Dado, Mathew, Cheever, James, Mcclelland, Daniel, Lumnitzer, Matt, James, Joshua, Chiem, Edward, Colmenares, Andre, Dorr, Elena, Gomez, Fernando, Jansen, Madeline, Lazicki, Katherine, Marcha, Emmanuel, Mohaimani, Aurash, Payne, Erica, Purcell, Amberl, Raddatz, Andrew, Sever, Michael, Sizer, Charlie, Taracena, Willy, Tilman, Ryan, Vassi, Anna, Wiebe, Meghan
- Date
- 2010, 2010-05
- Description
-
Silver Nanorods As Indicators of Thermal History, heat pum, NaOH,
Deliverables
- Title
- Silver Nanorods As Indicators of Thermal History (Semester Unknown) IPRO 348: SilverNanorodsAsIndicatorsOfThermalHistoryIPRO348FinalPresentationSp10
- Creator
- Nwanga, Shirley, Dado, Mathew, Cheever, James, Mcclelland, Daniel, Lumnitzer, Matt, James, Joshua, Chiem, Edward, Colmenares, Andre, Dorr, Elena, Gomez, Fernando, Jansen, Madeline, Lazicki, Katherine, Marcha, Emmanuel, Mohaimani, Aurash, Payne, Erica, Purcell, Amberl, Raddatz, Andrew, Sever, Michael, Sizer, Charlie, Taracena, Willy, Tilman, Ryan, Vassi, Anna, Wiebe, Meghan
- Date
- 2010, 2010-05
- Description
-
Silver Nanorods As Indicators of Thermal History, heat pum, NaOH,
Deliverables
- Title
- Silver Nanorods As Indicators of Thermal History (Semester Unknown) IPRO 348
- Creator
- Nwanga, Shirley, Dado, Mathew, Cheever, James, Mcclelland, Daniel, Lumnitzer, Matt, James, Joshua, Chiem, Edward, Colmenares, Andre, Dorr, Elena, Gomez, Fernando, Jansen, Madeline, Lazicki, Katherine, Marcha, Emmanuel, Mohaimani, Aurash, Payne, Erica, Purcell, Amberl, Raddatz, Andrew, Sever, Michael, Sizer, Charlie, Taracena, Willy, Tilman, Ryan, Vassi, Anna, Wiebe, Meghan
- Date
- 2010, 2010-05
- Description
-
Silver Nanorods As Indicators of Thermal History, heat pum, NaOH,
Deliverables
- Title
- Silver Nanorods As Indicators of Thermal History (Semester Unknown) IPRO 348: SilverNanorodsAsIndicatorsOfThermalHistoryIPRO348PosterSp10
- Creator
- Nwanga, Shirley, Dado, Mathew, Cheever, James, Mcclelland, Daniel, Lumnitzer, Matt, James, Joshua, Chiem, Edward, Colmenares, Andre, Dorr, Elena, Gomez, Fernando, Jansen, Madeline, Lazicki, Katherine, Marcha, Emmanuel, Mohaimani, Aurash, Payne, Erica, Purcell, Amberl, Raddatz, Andrew, Sever, Michael, Sizer, Charlie, Taracena, Willy, Tilman, Ryan, Vassi, Anna, Wiebe, Meghan
- Date
- 2010, 2010-05
- Description
-
Silver Nanorods As Indicators of Thermal History, heat pum, NaOH,
Deliverables
- Title
- CO2 Mitigation: A Techno-Economic Assessment (Semester Unknown) IPRO 302: CO2 Mitigation A Techno-Economic Assessment IPRO 302 Project Plan Sp08
- Creator
- Vrana, George, Babjak, Alan, Lee, Dahye, Mcwethy, Courtney, Costanzo, Francis, Gonzalez, Daniel, Hwang, Taeho, Bart, Jeff, Baldwin, Timothy, Marheine., Joshua, Schillaci, Michael, Cheever, James, Guilfoyle, Jennifer, Ogata, Kenneth, Kit Ong, Wai, Konwar, Riju, Clark, Michael, Zajkowska, Urszula, Lazicki, Katherine, Pyciak, Mark, Kuhan Sivanyanam, Sithambara, Yaker, Farouk, Im, Sanghyuk
- Date
- 2008, 2008-05
- Description
-
Perform an in-depth analysis of all aspects of implementing the selected CO2 mitigation technology from the sponsor by researching methods of...
Show morePerform an in-depth analysis of all aspects of implementing the selected CO2 mitigation technology from the sponsor by researching methods of sequestration and designing CO2 removal equipment with the assistance of MATLAB models of the power plant and Hysys models of the CO2 removal equipment. Provide a thorough economic analysis in order to assess the impact on power generation cost. This will include determination of capital costs for the operation and construction of CO2 removal and sequestering equipment to the existing power plant.
Sponsorship: Sargent & Lundy
Deliverables
Show less
- Title
- CO2 Mitigation: A Techno-Economic Assessment (Semester Unknown) IPRO 302: CO2 Mitigation A Techno-Economic Assessment IPRO 302 Final Report Sp08
- Creator
- Vrana, George, Babjak, Alan, Lee, Dahye, Mcwethy, Courtney, Costanzo, Francis, Gonzalez, Daniel, Hwang, Taeho, Bart, Jeff, Baldwin, Timothy, Marheine., Joshua, Schillaci, Michael, Cheever, James, Guilfoyle, Jennifer, Ogata, Kenneth, Kit Ong, Wai, Konwar, Riju, Clark, Michael, Zajkowska, Urszula, Lazicki, Katherine, Pyciak, Mark, Kuhan Sivanyanam, Sithambara, Yaker, Farouk, Im, Sanghyuk
- Date
- 2008, 2008-05
- Description
-
Perform an in-depth analysis of all aspects of implementing the selected CO2 mitigation technology from the sponsor by researching methods of...
Show morePerform an in-depth analysis of all aspects of implementing the selected CO2 mitigation technology from the sponsor by researching methods of sequestration and designing CO2 removal equipment with the assistance of MATLAB models of the power plant and Hysys models of the CO2 removal equipment. Provide a thorough economic analysis in order to assess the impact on power generation cost. This will include determination of capital costs for the operation and construction of CO2 removal and sequestering equipment to the existing power plant.
Sponsorship: Sargent & Lundy
Deliverables
Show less
- Title
- CO2 Mitigation: A Techno-Economic Assessment (Semester Unknown) IPRO 302: CO2 Mitigation A Techno-Economic Assessment IPRO 302 MidTerm Report Sp08
- Creator
- Vrana, George, Babjak, Alan, Lee, Dahye, Mcwethy, Courtney, Costanzo, Francis, Gonzalez, Daniel, Hwang, Taeho, Bart, Jeff, Baldwin, Timothy, Marheine., Joshua, Schillaci, Michael, Cheever, James, Guilfoyle, Jennifer, Ogata, Kenneth, Kit Ong, Wai, Konwar, Riju, Clark, Michael, Zajkowska, Urszula, Lazicki, Katherine, Pyciak, Mark, Kuhan Sivanyanam, Sithambara, Yaker, Farouk, Im, Sanghyuk
- Date
- 2008, 2008-05
- Description
-
Perform an in-depth analysis of all aspects of implementing the selected CO2 mitigation technology from the sponsor by researching methods of...
Show morePerform an in-depth analysis of all aspects of implementing the selected CO2 mitigation technology from the sponsor by researching methods of sequestration and designing CO2 removal equipment with the assistance of MATLAB models of the power plant and Hysys models of the CO2 removal equipment. Provide a thorough economic analysis in order to assess the impact on power generation cost. This will include determination of capital costs for the operation and construction of CO2 removal and sequestering equipment to the existing power plant.
Sponsorship: Sargent & Lundy
Deliverables
Show less
- Title
- CO2 Mitigation: A Techno-Economic Assessment (Semester Unknown) IPRO 302: CO2 Mitigation A Techno-Economic Assessment IPRO 302 Ethics Sp08
- Creator
- Vrana, George, Babjak, Alan, Lee, Dahye, Mcwethy, Courtney, Costanzo, Francis, Gonzalez, Daniel, Hwang, Taeho, Bart, Jeff, Baldwin, Timothy, Marheine., Joshua, Schillaci, Michael, Cheever, James, Guilfoyle, Jennifer, Ogata, Kenneth, Kit Ong, Wai, Konwar, Riju, Clark, Michael, Zajkowska, Urszula, Lazicki, Katherine, Pyciak, Mark, Kuhan Sivanyanam, Sithambara, Yaker, Farouk, Im, Sanghyuk
- Date
- 2008, 2008-05
- Description
-
Perform an in-depth analysis of all aspects of implementing the selected CO2 mitigation technology from the sponsor by researching methods of...
Show morePerform an in-depth analysis of all aspects of implementing the selected CO2 mitigation technology from the sponsor by researching methods of sequestration and designing CO2 removal equipment with the assistance of MATLAB models of the power plant and Hysys models of the CO2 removal equipment. Provide a thorough economic analysis in order to assess the impact on power generation cost. This will include determination of capital costs for the operation and construction of CO2 removal and sequestering equipment to the existing power plant.
Sponsorship: Sargent & Lundy
Deliverables
Show less
- Title
- CO2 Mitigation: A Techno-Economic Assessment (Semester Unknown) IPRO 302: CO2 Mitigation A Techno-Economic Assessment IPRO 302 Final Presentation Sp08
- Creator
- Vrana, George, Babjak, Alan, Lee, Dahye, Mcwethy, Courtney, Costanzo, Francis, Gonzalez, Daniel, Hwang, Taeho, Bart, Jeff, Baldwin, Timothy, Marheine., Joshua, Schillaci, Michael, Cheever, James, Guilfoyle, Jennifer, Ogata, Kenneth, Kit Ong, Wai, Konwar, Riju, Clark, Michael, Zajkowska, Urszula, Lazicki, Katherine, Pyciak, Mark, Kuhan Sivanyanam, Sithambara, Yaker, Farouk, Im, Sanghyuk
- Date
- 2008, 2008-05
- Description
-
Perform an in-depth analysis of all aspects of implementing the selected CO2 mitigation technology from the sponsor by researching methods of...
Show morePerform an in-depth analysis of all aspects of implementing the selected CO2 mitigation technology from the sponsor by researching methods of sequestration and designing CO2 removal equipment with the assistance of MATLAB models of the power plant and Hysys models of the CO2 removal equipment. Provide a thorough economic analysis in order to assess the impact on power generation cost. This will include determination of capital costs for the operation and construction of CO2 removal and sequestering equipment to the existing power plant.
Sponsorship: Sargent & Lundy
Deliverables
Show less