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Title: Design a System to Recycle Condensate from Residential Air Conditioners (Semester Unknown) IPRO 348: DesignASystemToRecycleCondensateFromResidentialAirConditionersIPRO348MidTermPresentationSu09
Creator: Abro, Anam, Ahmed, Syeda, Claxton, Matt, Hazariwala, Niravkumar, Hesser, Cari, Ismail, Malisa, Martinez, Jessica, Raghuvanshi, Siddhartha, Ruszczak, Erich, Specht, Nicole, Yanover, Rachel
Date: 2009, 2009-07
Description: The goal of IPRO 348 is to first find a use for the condensate produced by air conditioners, and then to create a product that will recycle...
Show moreThe goal of IPRO 348 is to first find a use for the condensate produced by air conditioners, and then to create a product that will recycle the condensate for said use. The first task for IPRO 348 is to collect information on how condensate is formed, its purity, and the amount that is produced by a central air conditioning system. The end goal of the IPRO is to have a marketable system that will collect and store the condensate produced by the air conditioning units and will then proceed to use the condensate in the form of cleaning water, irrigation water, and possibly various plumbing purposes such as flushing toilets. After creating a viable product, the IPRO team is determined to make the product scalable, expanding its market from residential to commercial industries. To fulfill this goal, the IPRO team has been broken down into subgroups which are each responsible for a different objective. The first subgroup is responsible for the creation of a device that will allow for the condensate to be collected and stored. The second subgroup is responsible for analyzing the collected sample’s composition and checking for bacterial growth. The third subgroup is responsible for setting the parameters and methods for condensate collection. The fourth subgroup is responsible for obtaining the condensate samples from various sites, as well as collecting environmental data. The fifth subgroup is responsible for beginning the marketing aspects of the project. As a whole, the IPRO team will determine how the project should progress.
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Title: Design a System to Recycle Condensate from Residential Air Conditioners (Semester Unknown) IPRO 348: DesignASystemToRecycleCondensateFromResidentialAirConditionersIPRO348EthicsSu09
Creator: Abro, Anam, Ahmed, Syeda, Claxton, Matt, Hazariwala, Niravkumar, Hesser, Cari, Ismail, Malisa, Martinez, Jessica, Raghuvanshi, Siddhartha, Ruszczak, Erich, Specht, Nicole, Yanover, Rachel
Date: 2009, 2009-07
Description: The goal of IPRO 348 is to first find a use for the condensate produced by air conditioners, and then to create a product that will recycle...
Show moreThe goal of IPRO 348 is to first find a use for the condensate produced by air conditioners, and then to create a product that will recycle the condensate for said use. The first task for IPRO 348 is to collect information on how condensate is formed, its purity, and the amount that is produced by a central air conditioning system. The end goal of the IPRO is to have a marketable system that will collect and store the condensate produced by the air conditioning units and will then proceed to use the condensate in the form of cleaning water, irrigation water, and possibly various plumbing purposes such as flushing toilets. After creating a viable product, the IPRO team is determined to make the product scalable, expanding its market from residential to commercial industries. To fulfill this goal, the IPRO team has been broken down into subgroups which are each responsible for a different objective. The first subgroup is responsible for the creation of a device that will allow for the condensate to be collected and stored. The second subgroup is responsible for analyzing the collected sample’s composition and checking for bacterial growth. The third subgroup is responsible for setting the parameters and methods for condensate collection. The fourth subgroup is responsible for obtaining the condensate samples from various sites, as well as collecting environmental data. The fifth subgroup is responsible for beginning the marketing aspects of the project. As a whole, the IPRO team will determine how the project should progress.
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Title: Design a System to Recycle Condensate from Residential Air Conditioners (Semester Unknown) IPRO 348: DesignASystemToRecycleCondensateFromResidentialAirConditionersIPRO348BrochureSu09
Creator: Abro, Anam, Ahmed, Syeda, Claxton, Matt, Hazariwala, Niravkumar, Hesser, Cari, Ismail, Malisa, Martinez, Jessica, Raghuvanshi, Siddhartha, Ruszczak, Erich, Specht, Nicole, Yanover, Rachel
Date: 2009, 2009-07
Description: The goal of IPRO 348 is to first find a use for the condensate produced by air conditioners, and then to create a product that will recycle...
Show moreThe goal of IPRO 348 is to first find a use for the condensate produced by air conditioners, and then to create a product that will recycle the condensate for said use. The first task for IPRO 348 is to collect information on how condensate is formed, its purity, and the amount that is produced by a central air conditioning system. The end goal of the IPRO is to have a marketable system that will collect and store the condensate produced by the air conditioning units and will then proceed to use the condensate in the form of cleaning water, irrigation water, and possibly various plumbing purposes such as flushing toilets. After creating a viable product, the IPRO team is determined to make the product scalable, expanding its market from residential to commercial industries. To fulfill this goal, the IPRO team has been broken down into subgroups which are each responsible for a different objective. The first subgroup is responsible for the creation of a device that will allow for the condensate to be collected and stored. The second subgroup is responsible for analyzing the collected sample’s composition and checking for bacterial growth. The third subgroup is responsible for setting the parameters and methods for condensate collection. The fourth subgroup is responsible for obtaining the condensate samples from various sites, as well as collecting environmental data. The fifth subgroup is responsible for beginning the marketing aspects of the project. As a whole, the IPRO team will determine how the project should progress.
Deliverables
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Title: Design a System to Recycle Condensate from Residential Air Conditioners (Semester Unknown) IPRO 348: DesignASystemToRecycleCondensateFromResidentialAirConditionersIPRO348PosterSu09
Creator: Abro, Anam, Ahmed, Syeda, Claxton, Matt, Hazariwala, Niravkumar, Hesser, Cari, Ismail, Malisa, Martinez, Jessica, Raghuvanshi, Siddhartha, Ruszczak, Erich, Specht, Nicole, Yanover, Rachel
Date: 2009, 2009-07
Description: The goal of IPRO 348 is to first find a use for the condensate produced by air conditioners, and then to create a product that will recycle...
Show moreThe goal of IPRO 348 is to first find a use for the condensate produced by air conditioners, and then to create a product that will recycle the condensate for said use. The first task for IPRO 348 is to collect information on how condensate is formed, its purity, and the amount that is produced by a central air conditioning system. The end goal of the IPRO is to have a marketable system that will collect and store the condensate produced by the air conditioning units and will then proceed to use the condensate in the form of cleaning water, irrigation water, and possibly various plumbing purposes such as flushing toilets. After creating a viable product, the IPRO team is determined to make the product scalable, expanding its market from residential to commercial industries. To fulfill this goal, the IPRO team has been broken down into subgroups which are each responsible for a different objective. The first subgroup is responsible for the creation of a device that will allow for the condensate to be collected and stored. The second subgroup is responsible for analyzing the collected sample’s composition and checking for bacterial growth. The third subgroup is responsible for setting the parameters and methods for condensate collection. The fourth subgroup is responsible for obtaining the condensate samples from various sites, as well as collecting environmental data. The fifth subgroup is responsible for beginning the marketing aspects of the project. As a whole, the IPRO team will determine how the project should progress.
Deliverables
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Title: Design a System to Recycle Condensate from Residential Air Conditioners (Semester Unknown) IPRO 348: DesignASystemToRecycleCondensateFromResidentialAirConditionersIPRO348FinalReportSu09
Creator: Abro, Anam, Ahmed, Syeda, Claxton, Matt, Hazariwala, Niravkumar, Hesser, Cari, Ismail, Malisa, Martinez, Jessica, Raghuvanshi, Siddhartha, Ruszczak, Erich, Specht, Nicole, Yanover, Rachel
Date: 2009, 2009-07
Description: The goal of IPRO 348 is to first find a use for the condensate produced by air conditioners, and then to create a product that will recycle...
Show moreThe goal of IPRO 348 is to first find a use for the condensate produced by air conditioners, and then to create a product that will recycle the condensate for said use. The first task for IPRO 348 is to collect information on how condensate is formed, its purity, and the amount that is produced by a central air conditioning system. The end goal of the IPRO is to have a marketable system that will collect and store the condensate produced by the air conditioning units and will then proceed to use the condensate in the form of cleaning water, irrigation water, and possibly various plumbing purposes such as flushing toilets. After creating a viable product, the IPRO team is determined to make the product scalable, expanding its market from residential to commercial industries. To fulfill this goal, the IPRO team has been broken down into subgroups which are each responsible for a different objective. The first subgroup is responsible for the creation of a device that will allow for the condensate to be collected and stored. The second subgroup is responsible for analyzing the collected sample’s composition and checking for bacterial growth. The third subgroup is responsible for setting the parameters and methods for condensate collection. The fourth subgroup is responsible for obtaining the condensate samples from various sites, as well as collecting environmental data. The fifth subgroup is responsible for beginning the marketing aspects of the project. As a whole, the IPRO team will determine how the project should progress.
Deliverables
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Title: Design & Build Chicago Scale Model for Dynamic Disaster Simulation (Semester Unknown) IPRO 317: Design and Build Chicago Scale Model for Dynamic Disaster Simulation IPRO 317 Final Presentation Su08
Creator: Balkany, Graham, Claxton, Matt, Correa, Jessica, Flores, Emmanuel, Hernandez, Yvonne, Kim, Jichul, Lebron, Chance, Leong, Erick, O’brien, Daniel, Martinez, Oscar, Robledo, Ruben, Rus, Bogdan, Russeva, Diyanna, Seo, Andrew, Sun, Meng
Date: 2008, 2008-07
Description: This is the second phase of this project as a continuation of Spring 2008 IPRO 317 and will have a focus for Summer 2008 on the computer...
Show moreThis is the second phase of this project as a continuation of Spring 2008 IPRO 317 and will have a focus for Summer 2008 on the computer program, the user interface, as well as completion of the first geographic area of the scale model. The objective of this project is to design and construct a 3-D scale model for the first portion of downtown Chicago (downtown Chicago has been subdivided into 6 portions). The model will be used to simulate and test the effectiveness of fire defense strategies to address fire or other catastrophes related to public health and safety. This model will include streets, buildings and detailed information that help the Chicago Fire Department in planning interventions, considering various scenarios and case studies. The model is being built in phases, with the overall design incorporating a sophisticated, computer-driven illumination scheme built within the model base. The model thus will be able to display animated scenarios of virtually any depth and focus, by means of time-varying color and brightness. CAD Computer-generated images and laser-cutting methods are the main techniques used to design and build the model, but hand craftsmanship is also necessary. The completed model will be fully modular, designed to transport easily to various facilities. The usefulness of the model thus will extend to many needs of the Chicago Fire Department and City of Chicago, as an educational tool within the department and for community outreach. Possible additional uses for the model will be wind tunnel measurement of pressure distributions to inform building design and City infrastructure needs, as well as the study of urban microclimates and the impact on building energy demand. There is also the potential for this model and its design approach to inform the development of scale models to depict the venues associated with the proposed 2016 Olympics along the Chicago lakefront. This project will include: (1) Identification of the scale, materials, technologies, and strategies for construction; (2) Physical mapping and computer modeling of the downtown built environment; (3) Design of the physical model and computer/electronic components; and (4) Construction of a reduced-area mock-up for final review and approval by the City of Chicago.
Sponsorship: Chicago Fire Department
Deliverables
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Title: Design & Build Chicago Scale Model for Dynamic Disaster Simulation (Semester Unknown) IPRO 317: Design and Build Chicago Scale Model for Dynamic Disaster Simulation IPRO 317 MidTerm Report Su08
Creator: Balkany, Graham, Claxton, Matt, Correa, Jessica, Flores, Emmanuel, Hernandez, Yvonne, Kim, Jichul, Lebron, Chance, Leong, Erick, O’brien, Daniel, Martinez, Oscar, Robledo, Ruben, Rus, Bogdan, Russeva, Diyanna, Seo, Andrew, Sun, Meng
Date: 2008, 2008-07
Description: This is the second phase of this project as a continuation of Spring 2008 IPRO 317 and will have a focus for Summer 2008 on the computer...
Show moreThis is the second phase of this project as a continuation of Spring 2008 IPRO 317 and will have a focus for Summer 2008 on the computer program, the user interface, as well as completion of the first geographic area of the scale model. The objective of this project is to design and construct a 3-D scale model for the first portion of downtown Chicago (downtown Chicago has been subdivided into 6 portions). The model will be used to simulate and test the effectiveness of fire defense strategies to address fire or other catastrophes related to public health and safety. This model will include streets, buildings and detailed information that help the Chicago Fire Department in planning interventions, considering various scenarios and case studies. The model is being built in phases, with the overall design incorporating a sophisticated, computer-driven illumination scheme built within the model base. The model thus will be able to display animated scenarios of virtually any depth and focus, by means of time-varying color and brightness. CAD Computer-generated images and laser-cutting methods are the main techniques used to design and build the model, but hand craftsmanship is also necessary. The completed model will be fully modular, designed to transport easily to various facilities. The usefulness of the model thus will extend to many needs of the Chicago Fire Department and City of Chicago, as an educational tool within the department and for community outreach. Possible additional uses for the model will be wind tunnel measurement of pressure distributions to inform building design and City infrastructure needs, as well as the study of urban microclimates and the impact on building energy demand. There is also the potential for this model and its design approach to inform the development of scale models to depict the venues associated with the proposed 2016 Olympics along the Chicago lakefront. This project will include: (1) Identification of the scale, materials, technologies, and strategies for construction; (2) Physical mapping and computer modeling of the downtown built environment; (3) Design of the physical model and computer/electronic components; and (4) Construction of a reduced-area mock-up for final review and approval by the City of Chicago.
Sponsorship: Chicago Fire Department
Deliverables
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Title: Design & Build Chicago Scale Model for Dynamic Disaster Simulation (Semester Unknown) IPRO 317
Creator: Balkany, Graham, Claxton, Matt, Correa, Jessica, Flores, Emmanuel, Hernandez, Yvonne, Kim, Jichul, Lebron, Chance, Leong, Erick, O’brien, Daniel, Martinez, Oscar, Robledo, Ruben, Rus, Bogdan, Russeva, Diyanna, Seo, Andrew, Sun, Meng
Date: 2008, 2008-07
Description: This is the second phase of this project as a continuation of Spring 2008 IPRO 317 and will have a focus for Summer 2008 on the computer...
Show moreThis is the second phase of this project as a continuation of Spring 2008 IPRO 317 and will have a focus for Summer 2008 on the computer program, the user interface, as well as completion of the first geographic area of the scale model. The objective of this project is to design and construct a 3-D scale model for the first portion of downtown Chicago (downtown Chicago has been subdivided into 6 portions). The model will be used to simulate and test the effectiveness of fire defense strategies to address fire or other catastrophes related to public health and safety. This model will include streets, buildings and detailed information that help the Chicago Fire Department in planning interventions, considering various scenarios and case studies. The model is being built in phases, with the overall design incorporating a sophisticated, computer-driven illumination scheme built within the model base. The model thus will be able to display animated scenarios of virtually any depth and focus, by means of time-varying color and brightness. CAD Computer-generated images and laser-cutting methods are the main techniques used to design and build the model, but hand craftsmanship is also necessary. The completed model will be fully modular, designed to transport easily to various facilities. The usefulness of the model thus will extend to many needs of the Chicago Fire Department and City of Chicago, as an educational tool within the department and for community outreach. Possible additional uses for the model will be wind tunnel measurement of pressure distributions to inform building design and City infrastructure needs, as well as the study of urban microclimates and the impact on building energy demand. There is also the potential for this model and its design approach to inform the development of scale models to depict the venues associated with the proposed 2016 Olympics along the Chicago lakefront. This project will include: (1) Identification of the scale, materials, technologies, and strategies for construction; (2) Physical mapping and computer modeling of the downtown built environment; (3) Design of the physical model and computer/electronic components; and (4) Construction of a reduced-area mock-up for final review and approval by the City of Chicago.
Sponsorship: Chicago Fire Department
Deliverables
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Title: Design & Build Chicago Scale Model for Dynamic Disaster Simulation (Semester Unknown) IPRO 317: Design and Build Chicago Scale Model for Dynamic Disaster Simulation IPRO 317 Gantt Chart Su08
Creator: Balkany, Graham, Claxton, Matt, Correa, Jessica, Flores, Emmanuel, Hernandez, Yvonne, Kim, Jichul, Lebron, Chance, Leong, Erick, O’brien, Daniel, Martinez, Oscar, Robledo, Ruben, Rus, Bogdan, Russeva, Diyanna, Seo, Andrew, Sun, Meng
Date: 2008, 2008-07
Description: This is the second phase of this project as a continuation of Spring 2008 IPRO 317 and will have a focus for Summer 2008 on the computer...
Show moreThis is the second phase of this project as a continuation of Spring 2008 IPRO 317 and will have a focus for Summer 2008 on the computer program, the user interface, as well as completion of the first geographic area of the scale model. The objective of this project is to design and construct a 3-D scale model for the first portion of downtown Chicago (downtown Chicago has been subdivided into 6 portions). The model will be used to simulate and test the effectiveness of fire defense strategies to address fire or other catastrophes related to public health and safety. This model will include streets, buildings and detailed information that help the Chicago Fire Department in planning interventions, considering various scenarios and case studies. The model is being built in phases, with the overall design incorporating a sophisticated, computer-driven illumination scheme built within the model base. The model thus will be able to display animated scenarios of virtually any depth and focus, by means of time-varying color and brightness. CAD Computer-generated images and laser-cutting methods are the main techniques used to design and build the model, but hand craftsmanship is also necessary. The completed model will be fully modular, designed to transport easily to various facilities. The usefulness of the model thus will extend to many needs of the Chicago Fire Department and City of Chicago, as an educational tool within the department and for community outreach. Possible additional uses for the model will be wind tunnel measurement of pressure distributions to inform building design and City infrastructure needs, as well as the study of urban microclimates and the impact on building energy demand. There is also the potential for this model and its design approach to inform the development of scale models to depict the venues associated with the proposed 2016 Olympics along the Chicago lakefront. This project will include: (1) Identification of the scale, materials, technologies, and strategies for construction; (2) Physical mapping and computer modeling of the downtown built environment; (3) Design of the physical model and computer/electronic components; and (4) Construction of a reduced-area mock-up for final review and approval by the City of Chicago.
Sponsorship: Chicago Fire Department
Deliverables
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Title: Design & Build Chicago Scale Model for Dynamic Disaster Simulation (Semester Unknown) IPRO 317: Design and Build Chicago Scale Model for Dynamic Disaster Simulation IPRO 317 Poster1 Su08
Creator: Balkany, Graham, Claxton, Matt, Correa, Jessica, Flores, Emmanuel, Hernandez, Yvonne, Kim, Jichul, Lebron, Chance, Leong, Erick, O’brien, Daniel, Martinez, Oscar, Robledo, Ruben, Rus, Bogdan, Russeva, Diyanna, Seo, Andrew, Sun, Meng
Date: 2008, 2008-07
Description: This is the second phase of this project as a continuation of Spring 2008 IPRO 317 and will have a focus for Summer 2008 on the computer...
Show moreThis is the second phase of this project as a continuation of Spring 2008 IPRO 317 and will have a focus for Summer 2008 on the computer program, the user interface, as well as completion of the first geographic area of the scale model. The objective of this project is to design and construct a 3-D scale model for the first portion of downtown Chicago (downtown Chicago has been subdivided into 6 portions). The model will be used to simulate and test the effectiveness of fire defense strategies to address fire or other catastrophes related to public health and safety. This model will include streets, buildings and detailed information that help the Chicago Fire Department in planning interventions, considering various scenarios and case studies. The model is being built in phases, with the overall design incorporating a sophisticated, computer-driven illumination scheme built within the model base. The model thus will be able to display animated scenarios of virtually any depth and focus, by means of time-varying color and brightness. CAD Computer-generated images and laser-cutting methods are the main techniques used to design and build the model, but hand craftsmanship is also necessary. The completed model will be fully modular, designed to transport easily to various facilities. The usefulness of the model thus will extend to many needs of the Chicago Fire Department and City of Chicago, as an educational tool within the department and for community outreach. Possible additional uses for the model will be wind tunnel measurement of pressure distributions to inform building design and City infrastructure needs, as well as the study of urban microclimates and the impact on building energy demand. There is also the potential for this model and its design approach to inform the development of scale models to depict the venues associated with the proposed 2016 Olympics along the Chicago lakefront. This project will include: (1) Identification of the scale, materials, technologies, and strategies for construction; (2) Physical mapping and computer modeling of the downtown built environment; (3) Design of the physical model and computer/electronic components; and (4) Construction of a reduced-area mock-up for final review and approval by the City of Chicago.
Sponsorship: Chicago Fire Department
Deliverables
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Title: Design & Build Chicago Scale Model for Dynamic Disaster Simulation (Semester Unknown) IPRO 317: Design and Build Chicago Scale Model for Dynamic Disaster Simulation IPRO 317 Poster2 Su08
Creator: Balkany, Graham, Claxton, Matt, Correa, Jessica, Flores, Emmanuel, Hernandez, Yvonne, Kim, Jichul, Lebron, Chance, Leong, Erick, O’brien, Daniel, Martinez, Oscar, Robledo, Ruben, Rus, Bogdan, Russeva, Diyanna, Seo, Andrew, Sun, Meng
Date: 2008, 2008-07
Description: This is the second phase of this project as a continuation of Spring 2008 IPRO 317 and will have a focus for Summer 2008 on the computer...
Show moreThis is the second phase of this project as a continuation of Spring 2008 IPRO 317 and will have a focus for Summer 2008 on the computer program, the user interface, as well as completion of the first geographic area of the scale model. The objective of this project is to design and construct a 3-D scale model for the first portion of downtown Chicago (downtown Chicago has been subdivided into 6 portions). The model will be used to simulate and test the effectiveness of fire defense strategies to address fire or other catastrophes related to public health and safety. This model will include streets, buildings and detailed information that help the Chicago Fire Department in planning interventions, considering various scenarios and case studies. The model is being built in phases, with the overall design incorporating a sophisticated, computer-driven illumination scheme built within the model base. The model thus will be able to display animated scenarios of virtually any depth and focus, by means of time-varying color and brightness. CAD Computer-generated images and laser-cutting methods are the main techniques used to design and build the model, but hand craftsmanship is also necessary. The completed model will be fully modular, designed to transport easily to various facilities. The usefulness of the model thus will extend to many needs of the Chicago Fire Department and City of Chicago, as an educational tool within the department and for community outreach. Possible additional uses for the model will be wind tunnel measurement of pressure distributions to inform building design and City infrastructure needs, as well as the study of urban microclimates and the impact on building energy demand. There is also the potential for this model and its design approach to inform the development of scale models to depict the venues associated with the proposed 2016 Olympics along the Chicago lakefront. This project will include: (1) Identification of the scale, materials, technologies, and strategies for construction; (2) Physical mapping and computer modeling of the downtown built environment; (3) Design of the physical model and computer/electronic components; and (4) Construction of a reduced-area mock-up for final review and approval by the City of Chicago.
Sponsorship: Chicago Fire Department
Deliverables
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Title: Design & Build Chicago Scale Model for Dynamic Disaster Simulation (Semester Unknown) IPRO 317: Design and Build Chicago Scale Model for Dynamic Disaster Simulation IPRO 317 Final Report Su08
Creator: Balkany, Graham, Claxton, Matt, Correa, Jessica, Flores, Emmanuel, Hernandez, Yvonne, Kim, Jichul, Lebron, Chance, Leong, Erick, O’brien, Daniel, Martinez, Oscar, Robledo, Ruben, Rus, Bogdan, Russeva, Diyanna, Seo, Andrew, Sun, Meng
Date: 2008, 2008-07
Description: This is the second phase of this project as a continuation of Spring 2008 IPRO 317 and will have a focus for Summer 2008 on the computer...
Show moreThis is the second phase of this project as a continuation of Spring 2008 IPRO 317 and will have a focus for Summer 2008 on the computer program, the user interface, as well as completion of the first geographic area of the scale model. The objective of this project is to design and construct a 3-D scale model for the first portion of downtown Chicago (downtown Chicago has been subdivided into 6 portions). The model will be used to simulate and test the effectiveness of fire defense strategies to address fire or other catastrophes related to public health and safety. This model will include streets, buildings and detailed information that help the Chicago Fire Department in planning interventions, considering various scenarios and case studies. The model is being built in phases, with the overall design incorporating a sophisticated, computer-driven illumination scheme built within the model base. The model thus will be able to display animated scenarios of virtually any depth and focus, by means of time-varying color and brightness. CAD Computer-generated images and laser-cutting methods are the main techniques used to design and build the model, but hand craftsmanship is also necessary. The completed model will be fully modular, designed to transport easily to various facilities. The usefulness of the model thus will extend to many needs of the Chicago Fire Department and City of Chicago, as an educational tool within the department and for community outreach. Possible additional uses for the model will be wind tunnel measurement of pressure distributions to inform building design and City infrastructure needs, as well as the study of urban microclimates and the impact on building energy demand. There is also the potential for this model and its design approach to inform the development of scale models to depict the venues associated with the proposed 2016 Olympics along the Chicago lakefront. This project will include: (1) Identification of the scale, materials, technologies, and strategies for construction; (2) Physical mapping and computer modeling of the downtown built environment; (3) Design of the physical model and computer/electronic components; and (4) Construction of a reduced-area mock-up for final review and approval by the City of Chicago.
Sponsorship: Chicago Fire Department
Deliverables
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Title: Design & Build Chicago Scale Model for Dynamic Disaster Simulation (Semester Unknown) IPRO 317: Design and Build Chicago Scale Model for Dynamic Disaster Simulation IPRO 317 Project Plan Su08
Creator: Balkany, Graham, Claxton, Matt, Correa, Jessica, Flores, Emmanuel, Hernandez, Yvonne, Kim, Jichul, Lebron, Chance, Leong, Erick, O’brien, Daniel, Martinez, Oscar, Robledo, Ruben, Rus, Bogdan, Russeva, Diyanna, Seo, Andrew, Sun, Meng
Date: 2008, 2008-07
Description: This is the second phase of this project as a continuation of Spring 2008 IPRO 317 and will have a focus for Summer 2008 on the computer...
Show moreThis is the second phase of this project as a continuation of Spring 2008 IPRO 317 and will have a focus for Summer 2008 on the computer program, the user interface, as well as completion of the first geographic area of the scale model. The objective of this project is to design and construct a 3-D scale model for the first portion of downtown Chicago (downtown Chicago has been subdivided into 6 portions). The model will be used to simulate and test the effectiveness of fire defense strategies to address fire or other catastrophes related to public health and safety. This model will include streets, buildings and detailed information that help the Chicago Fire Department in planning interventions, considering various scenarios and case studies. The model is being built in phases, with the overall design incorporating a sophisticated, computer-driven illumination scheme built within the model base. The model thus will be able to display animated scenarios of virtually any depth and focus, by means of time-varying color and brightness. CAD Computer-generated images and laser-cutting methods are the main techniques used to design and build the model, but hand craftsmanship is also necessary. The completed model will be fully modular, designed to transport easily to various facilities. The usefulness of the model thus will extend to many needs of the Chicago Fire Department and City of Chicago, as an educational tool within the department and for community outreach. Possible additional uses for the model will be wind tunnel measurement of pressure distributions to inform building design and City infrastructure needs, as well as the study of urban microclimates and the impact on building energy demand. There is also the potential for this model and its design approach to inform the development of scale models to depict the venues associated with the proposed 2016 Olympics along the Chicago lakefront. This project will include: (1) Identification of the scale, materials, technologies, and strategies for construction; (2) Physical mapping and computer modeling of the downtown built environment; (3) Design of the physical model and computer/electronic components; and (4) Construction of a reduced-area mock-up for final review and approval by the City of Chicago.
Sponsorship: Chicago Fire Department
Deliverables
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Title: Design & Build Chicago Scale Model for Dynamic Disaster Simulation (Semester Unknown) IPRO 317: Design and Build Chicago Scale Model for Dynamic Disaster Simulation IPRO 317 Abstract Su08
Creator: Balkany, Graham, Claxton, Matt, Correa, Jessica, Flores, Emmanuel, Hernandez, Yvonne, Kim, Jichul, Lebron, Chance, Leong, Erick, O’brien, Daniel, Martinez, Oscar, Robledo, Ruben, Rus, Bogdan, Russeva, Diyanna, Seo, Andrew, Sun, Meng
Date: 2008, 2008-07
Description: This is the second phase of this project as a continuation of Spring 2008 IPRO 317 and will have a focus for Summer 2008 on the computer...
Show moreThis is the second phase of this project as a continuation of Spring 2008 IPRO 317 and will have a focus for Summer 2008 on the computer program, the user interface, as well as completion of the first geographic area of the scale model. The objective of this project is to design and construct a 3-D scale model for the first portion of downtown Chicago (downtown Chicago has been subdivided into 6 portions). The model will be used to simulate and test the effectiveness of fire defense strategies to address fire or other catastrophes related to public health and safety. This model will include streets, buildings and detailed information that help the Chicago Fire Department in planning interventions, considering various scenarios and case studies. The model is being built in phases, with the overall design incorporating a sophisticated, computer-driven illumination scheme built within the model base. The model thus will be able to display animated scenarios of virtually any depth and focus, by means of time-varying color and brightness. CAD Computer-generated images and laser-cutting methods are the main techniques used to design and build the model, but hand craftsmanship is also necessary. The completed model will be fully modular, designed to transport easily to various facilities. The usefulness of the model thus will extend to many needs of the Chicago Fire Department and City of Chicago, as an educational tool within the department and for community outreach. Possible additional uses for the model will be wind tunnel measurement of pressure distributions to inform building design and City infrastructure needs, as well as the study of urban microclimates and the impact on building energy demand. There is also the potential for this model and its design approach to inform the development of scale models to depict the venues associated with the proposed 2016 Olympics along the Chicago lakefront. This project will include: (1) Identification of the scale, materials, technologies, and strategies for construction; (2) Physical mapping and computer modeling of the downtown built environment; (3) Design of the physical model and computer/electronic components; and (4) Construction of a reduced-area mock-up for final review and approval by the City of Chicago.
Sponsorship: Chicago Fire Department
Deliverables
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