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Title: Synthetic Biology: Engineering a Novel Organism (semester?), IPRO 302: Synthetic Biology IPRO 302 Abstract Sp06
Creator: Allam, Emad, Bridgeman, Bryan, Chen, Hoa, Hussain, Faraz, Hutchinson, Daniel, King, Heather, Le, Thien, Lim, Soo, Liu, Lily, Mahmud, Saba, Maltby, Edward, Patel, Sid, Ramirez, Hazel, Ross, Trillian
Date: 2006-05, 2006-05
Description: Our objectives are fairly straightforward. If the genetic code can be called its own language, then we want to become fluent in it. The...
Show moreOur objectives are fairly straightforward. If the genetic code can be called its own language, then we want to become fluent in it. The current technology does not allow us the ability to “write our own novel” (i.e. make a new organism from scratch), but what we can do is write our own pamphlet. This semester, we are trying to complete our test case, which is to create a colony of Escherichia coli that flash different colors all in unison. Once we complete this task, we hope to export this system into higher organisms, such as Zebrafish (Danio rerio). We are also seeking to move forward conceptually by planning long term goals for the Ipro, such as the development of not just test cases, but new, useful organisms.
Deliverables for IPRO 302: Synthetic Biology: Engineering a Novel Organism for the Spring 2006 semester
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Title: Business Study of Alternatives Uses for Brewers’ Spent Grain (Semester Unknown) IPRO 340: AlternativeUsesForBrewers'SpentGrainIPRO340FinalPresentationSp11
Creator: Acacio, Kevin, Kapaldo, James, Orekoya, Moyosoreoluwa, Sahni, Sakshi, Apyan, Aram, Kim, Paul, Prusak, Mateusz, Zahir, Soha, Chiem, Edward, Mares Araiza, Rodolfo, Smith, Amanda, Tomlin, Stephen
Date: 2011, 2011-05
Description: IPRO 340 (The Idea Fermentors) is working with Rock Bottom Brewery to determine alternative uses for the spent grain the brewery produces....
Show moreIPRO 340 (The Idea Fermentors) is working with Rock Bottom Brewery to determine alternative uses for the spent grain the brewery produces. Over 1,000 pounds of spent grain are produced at each of the three area locations weekly. Spent grain has many applications because of its high content of protein and fiber. Applications range from production of bio-plastics and bio-fuel, to agricultural uses as animal feed and compost material, to reuse as food for people. A major issue that Rock Bottom Brewery faces is that spent grain spoils very quickly, so alternative uses of spent grain must happen within a matter of days. IPRO 340 will determine what will be the best use of Rock Bottom Brewery’s spent grain in terms of logistics, cost, practicality, and environmental impact. The Idea Fermentors will lean and understand the brewery process and various applications for spent grain, as it pertains to Rock Bottom Brewery. The team will work together to accomplish project requirements as set forth by the IPRO office at IIT on time as well as satisfy the sponsor company’s needs.
Sponsorship: Timothy Marshall, Rock Bottom Brewery
Deliverables
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Title: Design of a Wind Energy Module for Buildings (Semester Unknown) IPRO 323: DesignOfAWindEnergyModuleForBuildingsIPRO323FinalReportSp11
Creator: Dizon, Taylor, Mcmanus, Tom, Swanson, Jonathan, Jardim, Thiago, Husain, Nyla, Pfiffner, Lucas, Luis, Jose, Bushcott, Corey, Gonnella, Antonio, Ciciora, Edward, Hoffman, Kent, Kim, Jaeyoung
Date: 2011, 2011-05
Description: In recent years, interest in extracting significant amounts of electrical power from large wind turbines has increased significantly. However,...
Show moreIn recent years, interest in extracting significant amounts of electrical power from large wind turbines has increased significantly. However, as simple as these devices may look to the layman’s eye, designing a device which efficiently and reliably converts wind into electrical power represents a highly non-trivial challenge. Further complications come about when this green energy is expected to work as a module on the top or the side of a building. Extracting the maximum amount of energy from wind flows whilst transforming mechanical energy into electrical power and then feeding this energy into the electric grid of a building while sustaining minimal losses and maintaining reasonable machine production and installation costs is a fully innovative and extraordinary proposal and objective. This inter-professional project team (IPRO 323 for Spring 2011) understands that the full undertaking of this idea would last, at the very least, five to six semesters of highly efficient work and research. ? Furthermore, is the geometrical design of the entire wind turbine which, is a project in itself. Therefore, the main objective of this semester’s IPRO is designing the shape of an urban rooftop that will harness an amount of wind which will induce optimal turbine work. This part of the project will be aided through wind tunnel testing and computer assisted analysis. Once a tentative shape has been obtained, 323 IPRO progeny could evaluate the economic feasibility of the project by installing several existing or new wind turbines designs into the modular shape provided by the Spring 2011 team. Somewhat further explaining this semester’s work: On the supposition/knowledge that different inlet and outlet geometries to the wind turbine will affect the power output, this team will perform wind tunnel studies of various wind turbine inlet and outlet sections along with a wind turbine analogy (a porous plate in place of the turbine will simulate the pressure drop of a random or particular turbine, as shown by Aubrun, Loyer, Espana, Hayden and Hancock on the AIAA paper “Experimental study on the wind turbine wake meandering with the help of a non-rotating simplified model and of a rotating model”; so that the analysis can be simplified). This is in order to better understand the power output behavior of such systems in complex flow situations. These tests and analysis shall have as an outcome the conception and final design of a modular wind turbine inlet and outlet sections, which can be further analyzed with real turbine simulations to determine the viability of placing modular wind turbines on buildings. As the New Green Revolution sweeps over the world and we all become more conscious of our impacts on the environment the quest for new forms and sources of clean energy ramps up. This project intends to take the first steps on creating a new opportunity for wind power transformation in cities, a windy environment underutilized as a source of energy where it is used most.
Deliverables
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Title: Design of a Wind Energy Module for Buildings (Semester Unknown) IPRO 323: DesignOfAWindEnergyModuleForBuildingsIPRO323MidTermPresentationSp11
Creator: Dizon, Taylor, Mcmanus, Tom, Swanson, Jonathan, Jardim, Thiago, Husain, Nyla, Pfiffner, Lucas, Luis, Jose, Bushcott, Corey, Gonnella, Antonio, Ciciora, Edward, Hoffman, Kent, Kim, Jaeyoung
Date: 2011, 2011-05
Description: In recent years, interest in extracting significant amounts of electrical power from large wind turbines has increased significantly. However,...
Show moreIn recent years, interest in extracting significant amounts of electrical power from large wind turbines has increased significantly. However, as simple as these devices may look to the layman’s eye, designing a device which efficiently and reliably converts wind into electrical power represents a highly non-trivial challenge. Further complications come about when this green energy is expected to work as a module on the top or the side of a building. Extracting the maximum amount of energy from wind flows whilst transforming mechanical energy into electrical power and then feeding this energy into the electric grid of a building while sustaining minimal losses and maintaining reasonable machine production and installation costs is a fully innovative and extraordinary proposal and objective. This inter-professional project team (IPRO 323 for Spring 2011) understands that the full undertaking of this idea would last, at the very least, five to six semesters of highly efficient work and research. ? Furthermore, is the geometrical design of the entire wind turbine which, is a project in itself. Therefore, the main objective of this semester’s IPRO is designing the shape of an urban rooftop that will harness an amount of wind which will induce optimal turbine work. This part of the project will be aided through wind tunnel testing and computer assisted analysis. Once a tentative shape has been obtained, 323 IPRO progeny could evaluate the economic feasibility of the project by installing several existing or new wind turbines designs into the modular shape provided by the Spring 2011 team. Somewhat further explaining this semester’s work: On the supposition/knowledge that different inlet and outlet geometries to the wind turbine will affect the power output, this team will perform wind tunnel studies of various wind turbine inlet and outlet sections along with a wind turbine analogy (a porous plate in place of the turbine will simulate the pressure drop of a random or particular turbine, as shown by Aubrun, Loyer, Espana, Hayden and Hancock on the AIAA paper “Experimental study on the wind turbine wake meandering with the help of a non-rotating simplified model and of a rotating model”; so that the analysis can be simplified). This is in order to better understand the power output behavior of such systems in complex flow situations. These tests and analysis shall have as an outcome the conception and final design of a modular wind turbine inlet and outlet sections, which can be further analyzed with real turbine simulations to determine the viability of placing modular wind turbines on buildings. As the New Green Revolution sweeps over the world and we all become more conscious of our impacts on the environment the quest for new forms and sources of clean energy ramps up. This project intends to take the first steps on creating a new opportunity for wind power transformation in cities, a windy environment underutilized as a source of energy where it is used most.
Deliverables
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Title: Design of a Wind Energy Module for Buildings (Semester Unknown) IPRO 323: DesignOfAWindEnergyModuleForBuildingsIPRO323ProjectPlanSp11
Creator: Dizon, Taylor, Mcmanus, Tom, Swanson, Jonathan, Jardim, Thiago, Husain, Nyla, Pfiffner, Lucas, Luis, Jose, Bushcott, Corey, Gonnella, Antonio, Ciciora, Edward, Hoffman, Kent, Kim, Jaeyoung
Date: 2011, 2011-05
Description: In recent years, interest in extracting significant amounts of electrical power from large wind turbines has increased significantly. However,...
Show moreIn recent years, interest in extracting significant amounts of electrical power from large wind turbines has increased significantly. However, as simple as these devices may look to the layman’s eye, designing a device which efficiently and reliably converts wind into electrical power represents a highly non-trivial challenge. Further complications come about when this green energy is expected to work as a module on the top or the side of a building. Extracting the maximum amount of energy from wind flows whilst transforming mechanical energy into electrical power and then feeding this energy into the electric grid of a building while sustaining minimal losses and maintaining reasonable machine production and installation costs is a fully innovative and extraordinary proposal and objective. This inter-professional project team (IPRO 323 for Spring 2011) understands that the full undertaking of this idea would last, at the very least, five to six semesters of highly efficient work and research. ? Furthermore, is the geometrical design of the entire wind turbine which, is a project in itself. Therefore, the main objective of this semester’s IPRO is designing the shape of an urban rooftop that will harness an amount of wind which will induce optimal turbine work. This part of the project will be aided through wind tunnel testing and computer assisted analysis. Once a tentative shape has been obtained, 323 IPRO progeny could evaluate the economic feasibility of the project by installing several existing or new wind turbines designs into the modular shape provided by the Spring 2011 team. Somewhat further explaining this semester’s work: On the supposition/knowledge that different inlet and outlet geometries to the wind turbine will affect the power output, this team will perform wind tunnel studies of various wind turbine inlet and outlet sections along with a wind turbine analogy (a porous plate in place of the turbine will simulate the pressure drop of a random or particular turbine, as shown by Aubrun, Loyer, Espana, Hayden and Hancock on the AIAA paper “Experimental study on the wind turbine wake meandering with the help of a non-rotating simplified model and of a rotating model”; so that the analysis can be simplified). This is in order to better understand the power output behavior of such systems in complex flow situations. These tests and analysis shall have as an outcome the conception and final design of a modular wind turbine inlet and outlet sections, which can be further analyzed with real turbine simulations to determine the viability of placing modular wind turbines on buildings. As the New Green Revolution sweeps over the world and we all become more conscious of our impacts on the environment the quest for new forms and sources of clean energy ramps up. This project intends to take the first steps on creating a new opportunity for wind power transformation in cities, a windy environment underutilized as a source of energy where it is used most.
Deliverables
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Title: Design of a Wind Energy Module for Buildings (Semester Unknown) IPRO 323: DesignOfAWindEnergyModuleForBuildingsIPRO323BrochureSp11
Creator: Dizon, Taylor, Mcmanus, Tom, Swanson, Jonathan, Jardim, Thiago, Husain, Nyla, Pfiffner, Lucas, Luis, Jose, Bushcott, Corey, Gonnella, Antonio, Ciciora, Edward, Hoffman, Kent, Kim, Jaeyoung
Date: 2011, 2011-05
Description: In recent years, interest in extracting significant amounts of electrical power from large wind turbines has increased significantly. However,...
Show moreIn recent years, interest in extracting significant amounts of electrical power from large wind turbines has increased significantly. However, as simple as these devices may look to the layman’s eye, designing a device which efficiently and reliably converts wind into electrical power represents a highly non-trivial challenge. Further complications come about when this green energy is expected to work as a module on the top or the side of a building. Extracting the maximum amount of energy from wind flows whilst transforming mechanical energy into electrical power and then feeding this energy into the electric grid of a building while sustaining minimal losses and maintaining reasonable machine production and installation costs is a fully innovative and extraordinary proposal and objective. This inter-professional project team (IPRO 323 for Spring 2011) understands that the full undertaking of this idea would last, at the very least, five to six semesters of highly efficient work and research. ? Furthermore, is the geometrical design of the entire wind turbine which, is a project in itself. Therefore, the main objective of this semester’s IPRO is designing the shape of an urban rooftop that will harness an amount of wind which will induce optimal turbine work. This part of the project will be aided through wind tunnel testing and computer assisted analysis. Once a tentative shape has been obtained, 323 IPRO progeny could evaluate the economic feasibility of the project by installing several existing or new wind turbines designs into the modular shape provided by the Spring 2011 team. Somewhat further explaining this semester’s work: On the supposition/knowledge that different inlet and outlet geometries to the wind turbine will affect the power output, this team will perform wind tunnel studies of various wind turbine inlet and outlet sections along with a wind turbine analogy (a porous plate in place of the turbine will simulate the pressure drop of a random or particular turbine, as shown by Aubrun, Loyer, Espana, Hayden and Hancock on the AIAA paper “Experimental study on the wind turbine wake meandering with the help of a non-rotating simplified model and of a rotating model”; so that the analysis can be simplified). This is in order to better understand the power output behavior of such systems in complex flow situations. These tests and analysis shall have as an outcome the conception and final design of a modular wind turbine inlet and outlet sections, which can be further analyzed with real turbine simulations to determine the viability of placing modular wind turbines on buildings. As the New Green Revolution sweeps over the world and we all become more conscious of our impacts on the environment the quest for new forms and sources of clean energy ramps up. This project intends to take the first steps on creating a new opportunity for wind power transformation in cities, a windy environment underutilized as a source of energy where it is used most.
Deliverables
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Title: Design of a Wind Energy Module for Buildings (Semester Unknown) IPRO 323: DesignOfAWindEnergyModuleForBuildingsIPRO323FinalPresentationSp11
Creator: Dizon, Taylor, Mcmanus, Tom, Swanson, Jonathan, Jardim, Thiago, Husain, Nyla, Pfiffner, Lucas, Luis, Jose, Bushcott, Corey, Gonnella, Antonio, Ciciora, Edward, Hoffman, Kent, Kim, Jaeyoung
Date: 2011, 2011-05
Description: In recent years, interest in extracting significant amounts of electrical power from large wind turbines has increased significantly. However,...
Show moreIn recent years, interest in extracting significant amounts of electrical power from large wind turbines has increased significantly. However, as simple as these devices may look to the layman’s eye, designing a device which efficiently and reliably converts wind into electrical power represents a highly non-trivial challenge. Further complications come about when this green energy is expected to work as a module on the top or the side of a building. Extracting the maximum amount of energy from wind flows whilst transforming mechanical energy into electrical power and then feeding this energy into the electric grid of a building while sustaining minimal losses and maintaining reasonable machine production and installation costs is a fully innovative and extraordinary proposal and objective. This inter-professional project team (IPRO 323 for Spring 2011) understands that the full undertaking of this idea would last, at the very least, five to six semesters of highly efficient work and research. ? Furthermore, is the geometrical design of the entire wind turbine which, is a project in itself. Therefore, the main objective of this semester’s IPRO is designing the shape of an urban rooftop that will harness an amount of wind which will induce optimal turbine work. This part of the project will be aided through wind tunnel testing and computer assisted analysis. Once a tentative shape has been obtained, 323 IPRO progeny could evaluate the economic feasibility of the project by installing several existing or new wind turbines designs into the modular shape provided by the Spring 2011 team. Somewhat further explaining this semester’s work: On the supposition/knowledge that different inlet and outlet geometries to the wind turbine will affect the power output, this team will perform wind tunnel studies of various wind turbine inlet and outlet sections along with a wind turbine analogy (a porous plate in place of the turbine will simulate the pressure drop of a random or particular turbine, as shown by Aubrun, Loyer, Espana, Hayden and Hancock on the AIAA paper “Experimental study on the wind turbine wake meandering with the help of a non-rotating simplified model and of a rotating model”; so that the analysis can be simplified). This is in order to better understand the power output behavior of such systems in complex flow situations. These tests and analysis shall have as an outcome the conception and final design of a modular wind turbine inlet and outlet sections, which can be further analyzed with real turbine simulations to determine the viability of placing modular wind turbines on buildings. As the New Green Revolution sweeps over the world and we all become more conscious of our impacts on the environment the quest for new forms and sources of clean energy ramps up. This project intends to take the first steps on creating a new opportunity for wind power transformation in cities, a windy environment underutilized as a source of energy where it is used most.
Deliverables
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Title: Design of a Wind Energy Module for Buildings (Semester Unknown) IPRO 323: DesignOfAWindEnergyModuleForBuildingsIPRO323Poster1Sp11
Creator: Dizon, Taylor, Mcmanus, Tom, Swanson, Jonathan, Jardim, Thiago, Husain, Nyla, Pfiffner, Lucas, Luis, Jose, Bushcott, Corey, Gonnella, Antonio, Ciciora, Edward, Hoffman, Kent, Kim, Jaeyoung
Date: 2011, 2011-05
Description: In recent years, interest in extracting significant amounts of electrical power from large wind turbines has increased significantly. However,...
Show moreIn recent years, interest in extracting significant amounts of electrical power from large wind turbines has increased significantly. However, as simple as these devices may look to the layman’s eye, designing a device which efficiently and reliably converts wind into electrical power represents a highly non-trivial challenge. Further complications come about when this green energy is expected to work as a module on the top or the side of a building. Extracting the maximum amount of energy from wind flows whilst transforming mechanical energy into electrical power and then feeding this energy into the electric grid of a building while sustaining minimal losses and maintaining reasonable machine production and installation costs is a fully innovative and extraordinary proposal and objective. This inter-professional project team (IPRO 323 for Spring 2011) understands that the full undertaking of this idea would last, at the very least, five to six semesters of highly efficient work and research. ? Furthermore, is the geometrical design of the entire wind turbine which, is a project in itself. Therefore, the main objective of this semester’s IPRO is designing the shape of an urban rooftop that will harness an amount of wind which will induce optimal turbine work. This part of the project will be aided through wind tunnel testing and computer assisted analysis. Once a tentative shape has been obtained, 323 IPRO progeny could evaluate the economic feasibility of the project by installing several existing or new wind turbines designs into the modular shape provided by the Spring 2011 team. Somewhat further explaining this semester’s work: On the supposition/knowledge that different inlet and outlet geometries to the wind turbine will affect the power output, this team will perform wind tunnel studies of various wind turbine inlet and outlet sections along with a wind turbine analogy (a porous plate in place of the turbine will simulate the pressure drop of a random or particular turbine, as shown by Aubrun, Loyer, Espana, Hayden and Hancock on the AIAA paper “Experimental study on the wind turbine wake meandering with the help of a non-rotating simplified model and of a rotating model”; so that the analysis can be simplified). This is in order to better understand the power output behavior of such systems in complex flow situations. These tests and analysis shall have as an outcome the conception and final design of a modular wind turbine inlet and outlet sections, which can be further analyzed with real turbine simulations to determine the viability of placing modular wind turbines on buildings. As the New Green Revolution sweeps over the world and we all become more conscious of our impacts on the environment the quest for new forms and sources of clean energy ramps up. This project intends to take the first steps on creating a new opportunity for wind power transformation in cities, a windy environment underutilized as a source of energy where it is used most.
Deliverables
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Title: Design of a Wind Energy Module for Buildings (Semester Unknown) IPRO 323: DesignOfAWindEnergyModuleForBuildingsIPRO323Poster2Sp11
Creator: Dizon, Taylor, Mcmanus, Tom, Swanson, Jonathan, Jardim, Thiago, Husain, Nyla, Pfiffner, Lucas, Luis, Jose, Bushcott, Corey, Gonnella, Antonio, Ciciora, Edward, Hoffman, Kent, Kim, Jaeyoung
Date: 2011, 2011-05
Description: In recent years, interest in extracting significant amounts of electrical power from large wind turbines has increased significantly. However,...
Show moreIn recent years, interest in extracting significant amounts of electrical power from large wind turbines has increased significantly. However, as simple as these devices may look to the layman’s eye, designing a device which efficiently and reliably converts wind into electrical power represents a highly non-trivial challenge. Further complications come about when this green energy is expected to work as a module on the top or the side of a building. Extracting the maximum amount of energy from wind flows whilst transforming mechanical energy into electrical power and then feeding this energy into the electric grid of a building while sustaining minimal losses and maintaining reasonable machine production and installation costs is a fully innovative and extraordinary proposal and objective. This inter-professional project team (IPRO 323 for Spring 2011) understands that the full undertaking of this idea would last, at the very least, five to six semesters of highly efficient work and research. ? Furthermore, is the geometrical design of the entire wind turbine which, is a project in itself. Therefore, the main objective of this semester’s IPRO is designing the shape of an urban rooftop that will harness an amount of wind which will induce optimal turbine work. This part of the project will be aided through wind tunnel testing and computer assisted analysis. Once a tentative shape has been obtained, 323 IPRO progeny could evaluate the economic feasibility of the project by installing several existing or new wind turbines designs into the modular shape provided by the Spring 2011 team. Somewhat further explaining this semester’s work: On the supposition/knowledge that different inlet and outlet geometries to the wind turbine will affect the power output, this team will perform wind tunnel studies of various wind turbine inlet and outlet sections along with a wind turbine analogy (a porous plate in place of the turbine will simulate the pressure drop of a random or particular turbine, as shown by Aubrun, Loyer, Espana, Hayden and Hancock on the AIAA paper “Experimental study on the wind turbine wake meandering with the help of a non-rotating simplified model and of a rotating model”; so that the analysis can be simplified). This is in order to better understand the power output behavior of such systems in complex flow situations. These tests and analysis shall have as an outcome the conception and final design of a modular wind turbine inlet and outlet sections, which can be further analyzed with real turbine simulations to determine the viability of placing modular wind turbines on buildings. As the New Green Revolution sweeps over the world and we all become more conscious of our impacts on the environment the quest for new forms and sources of clean energy ramps up. This project intends to take the first steps on creating a new opportunity for wind power transformation in cities, a windy environment underutilized as a source of energy where it is used most.
Deliverables
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Title: Design of a Wind Energy Module for Buildings (Semester Unknown) IPRO 323
Creator: Dizon, Taylor, Mcmanus, Tom, Swanson, Jonathan, Jardim, Thiago, Husain, Nyla, Pfiffner, Lucas, Luis, Jose, Bushcott, Corey, Gonnella, Antonio, Ciciora, Edward, Hoffman, Kent, Kim, Jaeyoung
Date: 2011, 2011-05
Description: In recent years, interest in extracting significant amounts of electrical power from large wind turbines has increased significantly. However,...
Show moreIn recent years, interest in extracting significant amounts of electrical power from large wind turbines has increased significantly. However, as simple as these devices may look to the layman’s eye, designing a device which efficiently and reliably converts wind into electrical power represents a highly non-trivial challenge. Further complications come about when this green energy is expected to work as a module on the top or the side of a building. Extracting the maximum amount of energy from wind flows whilst transforming mechanical energy into electrical power and then feeding this energy into the electric grid of a building while sustaining minimal losses and maintaining reasonable machine production and installation costs is a fully innovative and extraordinary proposal and objective. This inter-professional project team (IPRO 323 for Spring 2011) understands that the full undertaking of this idea would last, at the very least, five to six semesters of highly efficient work and research. ? Furthermore, is the geometrical design of the entire wind turbine which, is a project in itself. Therefore, the main objective of this semester’s IPRO is designing the shape of an urban rooftop that will harness an amount of wind which will induce optimal turbine work. This part of the project will be aided through wind tunnel testing and computer assisted analysis. Once a tentative shape has been obtained, 323 IPRO progeny could evaluate the economic feasibility of the project by installing several existing or new wind turbines designs into the modular shape provided by the Spring 2011 team. Somewhat further explaining this semester’s work: On the supposition/knowledge that different inlet and outlet geometries to the wind turbine will affect the power output, this team will perform wind tunnel studies of various wind turbine inlet and outlet sections along with a wind turbine analogy (a porous plate in place of the turbine will simulate the pressure drop of a random or particular turbine, as shown by Aubrun, Loyer, Espana, Hayden and Hancock on the AIAA paper “Experimental study on the wind turbine wake meandering with the help of a non-rotating simplified model and of a rotating model”; so that the analysis can be simplified). This is in order to better understand the power output behavior of such systems in complex flow situations. These tests and analysis shall have as an outcome the conception and final design of a modular wind turbine inlet and outlet sections, which can be further analyzed with real turbine simulations to determine the viability of placing modular wind turbines on buildings. As the New Green Revolution sweeps over the world and we all become more conscious of our impacts on the environment the quest for new forms and sources of clean energy ramps up. This project intends to take the first steps on creating a new opportunity for wind power transformation in cities, a windy environment underutilized as a source of energy where it is used most.
Deliverables
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Title: Building a Community Garden (semester?), IPRO 344: Community Gardening IPRO 344 Final Report S06
Creator: Chojnowski, Joeseph, Clemens, Natalie, Esparza, Saul, Gerges, Shahir, Hernandez, Veronica, Herrera, Stephanie, Hittie, Thomas, Lucid, Shannon, Peck, Edward, Pfau, Sara, Procaccio, Vincenzo, Samuels, Janina, Schaefer, Kristina, Siefkas, Kaylyn, Sweikert, Emma, Winter, Rachael
Date: 2006-07, 2006-07
Description: IPRO 344 investigated methods for safe, low-cost community gardening in the urban setting. Most community gardens within large cities are...
Show moreIPRO 344 investigated methods for safe, low-cost community gardening in the urban setting. Most community gardens within large cities are sited in vacant lots that have been previously built upon. When the structures that once occupied these sites were demolished, the debris filled the basements of the structures, and was then covered by a shallow layer of nutrient poor dirt. The resulting vacant lots pose two problems for community gardening. First, the ground becomes tough and nearly impossible to manually prepare for gardening purposes. Second, the presence of lead and mercury from the paint and other construction materials has been incorporated into the soil, which can be harmful when transferred into plants which are then ingested. Since most community gardens in low-income neighborhoods do provide food, it became the aim of IPRO 344 to inexpensively grow plants which would be safe to eat in an urban community garden.
Deliverables for IPRO 344: Building a Community Garden for the Summer 2006 semester
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Title: Building a Community Garden (semester?), IPRO 344: Community Gardening IPRO 344 IPRO Day Presentation S06
Creator: Chojnowski, Joeseph, Clemens, Natalie, Esparza, Saul, Gerges, Shahir, Hernandez, Veronica, Herrera, Stephanie, Hittie, Thomas, Lucid, Shannon, Peck, Edward, Pfau, Sara, Procaccio, Vincenzo, Samuels, Janina, Schaefer, Kristina, Siefkas, Kaylyn, Sweikert, Emma, Winter, Rachael
Date: 2006-07, 2006-07
Description: IPRO 344 investigated methods for safe, low-cost community gardening in the urban setting. Most community gardens within large cities are...
Show moreIPRO 344 investigated methods for safe, low-cost community gardening in the urban setting. Most community gardens within large cities are sited in vacant lots that have been previously built upon. When the structures that once occupied these sites were demolished, the debris filled the basements of the structures, and was then covered by a shallow layer of nutrient poor dirt. The resulting vacant lots pose two problems for community gardening. First, the ground becomes tough and nearly impossible to manually prepare for gardening purposes. Second, the presence of lead and mercury from the paint and other construction materials has been incorporated into the soil, which can be harmful when transferred into plants which are then ingested. Since most community gardens in low-income neighborhoods do provide food, it became the aim of IPRO 344 to inexpensively grow plants which would be safe to eat in an urban community garden.
Deliverables for IPRO 344: Building a Community Garden for the Summer 2006 semester
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Title: Renovation of Alumni Memorial Hall (semester?), IPRO 335
Creator: Ford, Brad, Kim, Youjoung, Oh, Hyunjoo, Reid, Rebekah, Woods, Nataniel, Babel, Alek, Dow, Dan, Kazi, Syed, Helland, Matt, Szajokowski, Jared, Tambah, Prince, Gibbs, Matt, Edwards, Tamakia, Uecke, Jeffrey, Uecke, Steve, Wegrzyn, Celeste, Atanassova, Tania
Date: 2007-05, 2007-05
Description: IPRO 335’s objective is to focus on starting the renovation and design of Alumni Memorial Hall used by the Civil and Architectural Engineering...
Show moreIPRO 335’s objective is to focus on starting the renovation and design of Alumni Memorial Hall used by the Civil and Architectural Engineering Department. This is the first semester this IPRO has been offered. Our main goal and objective is to research and analyze the current building in place, and begin a schematic design for Alumni Memorial Hall including the structural, mechanical, and electrical systems. We are setting the groundwork for this IPRO to be furthered in future semesters.
Deliverables for IPRO 335: Renovation of Alumni Memorial Hall for the Spring 2007 semester
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Title: Patient Satisfaction (Semester Unknown) IPRO340
Creator: Acacio, Kevin, Apyan, Aram, Chiem, Edward, Dushay, Mitchell, Kapaldo, James, Kim, Paul, Lewis, Phil, Mares Araiza, Rodolfo, Orekoya, Moyosoreoluwa, Prusak, Mateusz, Sahni, Sakshi, Smith, Amanda, Spitler, Noah, Stomlin, Stephen, Zahir, Soha
Date: 2009, 2009-05
Description: ACCESS Healthcare is committed to excellent service in each step of the patient experience. In order to learn what elements of the experience...
Show moreACCESS Healthcare is committed to excellent service in each step of the patient experience. In order to learn what elements of the experience need improvement, patients are surveyed at each of the 50 clinics, and the data is analyzed and compiled in a report each quarter. As the process of collecting surveys and inputting data is the responsibility of four employees, it requires a significant amount of time and travel, and should therefore be as efficient as possible. Our objective in this project is to obtain insights about the surveying process, through on-site observation, surveyor shadowing, and employee interviews that will allow us to provide the most comprehensive suggestions for increased surveyor productivity.
Deliverables
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Title: Disaster Recovery: DIY Home Building (semester?), IPRO 324: DIY Home Building IPRO 324 Project Plan Sp07
Creator: Chacko, Serena, Dakowisz, Dukasz, Diaz De Leon Orraca, Federico, Dilger, Andrew, Dolejs, Martina, Grosse, Christopher, Kim, Jung-jae, Kirsch, Joseph, Navarro, Jonathan, Peck, Edward, Ray, Monmayuri, Rios, Homero, Rogers, Eric, Rotella, James, Thompson, Sean T.
Date: 2007-05, 2007-05
Description: IPRO 324, Disaster Recovery: Do-It-Yourself Home Building, is focused on designing a building manual to aid disaster victims in building new...
Show moreIPRO 324, Disaster Recovery: Do-It-Yourself Home Building, is focused on designing a building manual to aid disaster victims in building new buildings. The objectives of this group are to continue the efforts made from the previous semester. This includes the creation of a manual illustrating how to build the design, design for handicap accessibility as a provision to the current design, to market this manual to a disaster relief organization that would be responsible for the distribution, to find a new client who would be interested in having this project built, and to find funding in order to build the design. Over the course of this semester, the team will be focusing on creating the manual and attempting to build the design at a site either in New Harmony, Louisana or Gulfport, Mississippi where potential clients are. The house at a bare minimum consists of a multipurpose room, a kitchen, and a bathroom; and will cost approximately $17,000. This is an affordable home/structure considering the cost of building a house now. The team is aware that some families are not fortunate enough to have a savings of $20,000 when these unexpected disasters occur. For this reason, it is an objective of the team to obtain funding.
Deliverables for IPRO 324: Disaster Recovery: DIY Home Building for the Spring 2007 semester
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Title: Disaster Recovery: DIY Home Building (semester?), IPRO 324
Creator: Chacko, Serena, Dakowisz, Dukasz, Diaz De Leon Orraca, Federico, Dilger, Andrew, Dolejs, Martina, Grosse, Christopher, Kim, Jung-jae, Kirsch, Joseph, Navarro, Jonathan, Peck, Edward, Ray, Monmayuri, Rios, Homero, Rogers, Eric, Rotella, James, Thompson, Sean T.
Date: 2007-05, 2007-05
Description: IPRO 324, Disaster Recovery: Do-It-Yourself Home Building, is focused on designing a building manual to aid disaster victims in building new...
Show moreIPRO 324, Disaster Recovery: Do-It-Yourself Home Building, is focused on designing a building manual to aid disaster victims in building new buildings. The objectives of this group are to continue the efforts made from the previous semester. This includes the creation of a manual illustrating how to build the design, design for handicap accessibility as a provision to the current design, to market this manual to a disaster relief organization that would be responsible for the distribution, to find a new client who would be interested in having this project built, and to find funding in order to build the design. Over the course of this semester, the team will be focusing on creating the manual and attempting to build the design at a site either in New Harmony, Louisana or Gulfport, Mississippi where potential clients are. The house at a bare minimum consists of a multipurpose room, a kitchen, and a bathroom; and will cost approximately $17,000. This is an affordable home/structure considering the cost of building a house now. The team is aware that some families are not fortunate enough to have a savings of $20,000 when these unexpected disasters occur. For this reason, it is an objective of the team to obtain funding.
Deliverables for IPRO 324: Disaster Recovery: DIY Home Building for the Spring 2007 semester
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Title: Renovation of Alumni Memorial Hall (semester?), IPRO 335: Alumni Memorial Hall Renovation IPRO 335 Final Report Sp07
Creator: Ford, Brad, Kim, Youjoung, Oh, Hyunjoo, Reid, Rebekah, Woods, Nataniel, Babel, Alek, Dow, Dan, Kazi, Syed, Helland, Matt, Szajokowski, Jared, Tambah, Prince, Gibbs, Matt, Edwards, Tamakia, Uecke, Jeffrey, Uecke, Steve, Wegrzyn, Celeste, Atanassova, Tania
Date: 2007-05, 2007-05
Description: IPRO 335’s objective is to focus on starting the renovation and design of Alumni Memorial Hall used by the Civil and Architectural Engineering...
Show moreIPRO 335’s objective is to focus on starting the renovation and design of Alumni Memorial Hall used by the Civil and Architectural Engineering Department. This is the first semester this IPRO has been offered. Our main goal and objective is to research and analyze the current building in place, and begin a schematic design for Alumni Memorial Hall including the structural, mechanical, and electrical systems. We are setting the groundwork for this IPRO to be furthered in future semesters.
Deliverables for IPRO 335: Renovation of Alumni Memorial Hall for the Spring 2007 semester
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Title: Building a Community Garden (semester?), IPRO 344: Community Gardening IPRO 344 Abstract S06
Creator: Chojnowski, Joeseph, Clemens, Natalie, Esparza, Saul, Gerges, Shahir, Hernandez, Veronica, Herrera, Stephanie, Hittie, Thomas, Lucid, Shannon, Peck, Edward, Pfau, Sara, Procaccio, Vincenzo, Samuels, Janina, Schaefer, Kristina, Siefkas, Kaylyn, Sweikert, Emma, Winter, Rachael
Date: 2006-07, 2006-07
Description: IPRO 344 investigated methods for safe, low-cost community gardening in the urban setting. Most community gardens within large cities are...
Show moreIPRO 344 investigated methods for safe, low-cost community gardening in the urban setting. Most community gardens within large cities are sited in vacant lots that have been previously built upon. When the structures that once occupied these sites were demolished, the debris filled the basements of the structures, and was then covered by a shallow layer of nutrient poor dirt. The resulting vacant lots pose two problems for community gardening. First, the ground becomes tough and nearly impossible to manually prepare for gardening purposes. Second, the presence of lead and mercury from the paint and other construction materials has been incorporated into the soil, which can be harmful when transferred into plants which are then ingested. Since most community gardens in low-income neighborhoods do provide food, it became the aim of IPRO 344 to inexpensively grow plants which would be safe to eat in an urban community garden.
Deliverables for IPRO 344: Building a Community Garden for the Summer 2006 semester
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Title: Renovation of Alumni Memorial Hall (semester?), IPRO 335: Alumni Memorial Hall Renovation IPRO 335 Midterm Report Sp07
Creator: Ford, Brad, Kim, Youjoung, Oh, Hyunjoo, Reid, Rebekah, Woods, Nataniel, Babel, Alek, Dow, Dan, Kazi, Syed, Helland, Matt, Szajokowski, Jared, Tambah, Prince, Gibbs, Matt, Edwards, Tamakia, Uecke, Jeffrey, Uecke, Steve, Wegrzyn, Celeste, Atanassova, Tania
Date: 2007-05, 2007-05
Description: IPRO 335’s objective is to focus on starting the renovation and design of Alumni Memorial Hall used by the Civil and Architectural Engineering...
Show moreIPRO 335’s objective is to focus on starting the renovation and design of Alumni Memorial Hall used by the Civil and Architectural Engineering Department. This is the first semester this IPRO has been offered. Our main goal and objective is to research and analyze the current building in place, and begin a schematic design for Alumni Memorial Hall including the structural, mechanical, and electrical systems. We are setting the groundwork for this IPRO to be furthered in future semesters.
Deliverables for IPRO 335: Renovation of Alumni Memorial Hall for the Spring 2007 semester
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Title: Renovation of Alumni Memorial Hall (semester?), IPRO 335: Alumni Memorial Hall Renovation IPRO 335 IPRO Day Presentation Sp07
Creator: Ford, Brad, Kim, Youjoung, Oh, Hyunjoo, Reid, Rebekah, Woods, Nataniel, Babel, Alek, Dow, Dan, Kazi, Syed, Helland, Matt, Szajokowski, Jared, Tambah, Prince, Gibbs, Matt, Edwards, Tamakia, Uecke, Jeffrey, Uecke, Steve, Wegrzyn, Celeste, Atanassova, Tania
Date: 2007-05, 2007-05
Description: IPRO 335’s objective is to focus on starting the renovation and design of Alumni Memorial Hall used by the Civil and Architectural Engineering...
Show moreIPRO 335’s objective is to focus on starting the renovation and design of Alumni Memorial Hall used by the Civil and Architectural Engineering Department. This is the first semester this IPRO has been offered. Our main goal and objective is to research and analyze the current building in place, and begin a schematic design for Alumni Memorial Hall including the structural, mechanical, and electrical systems. We are setting the groundwork for this IPRO to be furthered in future semesters.
Deliverables for IPRO 335: Renovation of Alumni Memorial Hall for the Spring 2007 semester
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