Search results
(1 - 15 of 15)
- Title
- Failure Prediction Modeling of Power Plant Emission Control Systems (Semester Unknown) IPRO 303: FailurePredictionModelingOfPowerPlantEmissionControlSystemsIPRO303ProjectPlanSp09
- Creator
- Arastu, Insiyah, Belanger, Dave, Bouikidis, John, Capps, Zachary, Hesser, Cari, Irish, Sean, Kaneria, Satyam, Mcquillan, Brett, Mohinani, Lavesh, Patel, Jay
- Date
- 2009, 2009-05
- Description
-
The main goal of IPRO 303 is to investigate how SmartSignal’s modeling technology can provide value in detecting problems on environmental...
Show moreThe main goal of IPRO 303 is to investigate how SmartSignal’s modeling technology can provide value in detecting problems on environmental systems: The main objectives that SmartSignal would like for the team to investigate are: · What are the regulatory drivers – changes in laws/regulation occurring at various points in time? Are the regulations fleet-wide or regionally specific? Can credits be traded? Etc. · What types of systems are being deployed to remove what pollutants? Describe different sub-types and configurations within a type of system, and how common they are. · How much instrumentation is available on these systems, and what signals are measured (temperature, pressure, chemistry analysis, etc.)? How much diversity is there in the levels of available instrumentation? IPRO 303 Spring’09 13th February 2009 IPRO303 Project Plan Page 2 of 7 · What are the failure and performance degradation problems that occur? How common are they? What are the ramifications of these problems – outages, derates, having to burn more expensive fuel or turn up the “peaking” generation units that are more expensive to run, etc.? · How can the available instrumentation be used to remotely monitor and detect developing problems?
Sponsorship: SmartSignal
Deliverables
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- Title
- Failure Prediction Modeling of Power Plant Emission Control Systems (Semester Unknown) IPRO 303: FailurePredictionModelingOfPowerPlantEmissionControlSystemsIPRO303PosterSp09
- Creator
- Arastu, Insiyah, Belanger, Dave, Bouikidis, John, Capps, Zachary, Hesser, Cari, Irish, Sean, Kaneria, Satyam, Mcquillan, Brett, Mohinani, Lavesh, Patel, Jay
- Date
- 2009, 2009-05
- Description
-
The main goal of IPRO 303 is to investigate how SmartSignal’s modeling technology can provide value in detecting problems on environmental...
Show moreThe main goal of IPRO 303 is to investigate how SmartSignal’s modeling technology can provide value in detecting problems on environmental systems: The main objectives that SmartSignal would like for the team to investigate are: · What are the regulatory drivers – changes in laws/regulation occurring at various points in time? Are the regulations fleet-wide or regionally specific? Can credits be traded? Etc. · What types of systems are being deployed to remove what pollutants? Describe different sub-types and configurations within a type of system, and how common they are. · How much instrumentation is available on these systems, and what signals are measured (temperature, pressure, chemistry analysis, etc.)? How much diversity is there in the levels of available instrumentation? IPRO 303 Spring’09 13th February 2009 IPRO303 Project Plan Page 2 of 7 · What are the failure and performance degradation problems that occur? How common are they? What are the ramifications of these problems – outages, derates, having to burn more expensive fuel or turn up the “peaking” generation units that are more expensive to run, etc.? · How can the available instrumentation be used to remotely monitor and detect developing problems?
Sponsorship: SmartSignal
Deliverables
Show less
- Title
- Failure Prediction Modeling of Power Plant Emission Control Systems (Semester Unknown) IPRO 303: FailurePredictionModelingOfPowerPlantEmissionControlSystemsIPRO303BrochureSp09
- Creator
- Arastu, Insiyah, Belanger, Dave, Bouikidis, John, Capps, Zachary, Hesser, Cari, Irish, Sean, Kaneria, Satyam, Mcquillan, Brett, Mohinani, Lavesh, Patel, Jay
- Date
- 2009, 2009-05
- Description
-
The main goal of IPRO 303 is to investigate how SmartSignal’s modeling technology can provide value in detecting problems on environmental...
Show moreThe main goal of IPRO 303 is to investigate how SmartSignal’s modeling technology can provide value in detecting problems on environmental systems: The main objectives that SmartSignal would like for the team to investigate are: · What are the regulatory drivers – changes in laws/regulation occurring at various points in time? Are the regulations fleet-wide or regionally specific? Can credits be traded? Etc. · What types of systems are being deployed to remove what pollutants? Describe different sub-types and configurations within a type of system, and how common they are. · How much instrumentation is available on these systems, and what signals are measured (temperature, pressure, chemistry analysis, etc.)? How much diversity is there in the levels of available instrumentation? IPRO 303 Spring’09 13th February 2009 IPRO303 Project Plan Page 2 of 7 · What are the failure and performance degradation problems that occur? How common are they? What are the ramifications of these problems – outages, derates, having to burn more expensive fuel or turn up the “peaking” generation units that are more expensive to run, etc.? · How can the available instrumentation be used to remotely monitor and detect developing problems?
Sponsorship: SmartSignal
Deliverables
Show less
- Title
- Failure Prediction Modeling of Power Plant Emission Control Systems (Semester Unknown) IPRO 303: FailurePredictionModelingOfPowerPlantEmissionControlSystemsIPRO303MidTermPresentationSp09
- Creator
- Arastu, Insiyah, Belanger, Dave, Bouikidis, John, Capps, Zachary, Hesser, Cari, Irish, Sean, Kaneria, Satyam, Mcquillan, Brett, Mohinani, Lavesh, Patel, Jay
- Date
- 2009, 2009-05
- Description
-
The main goal of IPRO 303 is to investigate how SmartSignal’s modeling technology can provide value in detecting problems on environmental...
Show moreThe main goal of IPRO 303 is to investigate how SmartSignal’s modeling technology can provide value in detecting problems on environmental systems: The main objectives that SmartSignal would like for the team to investigate are: · What are the regulatory drivers – changes in laws/regulation occurring at various points in time? Are the regulations fleet-wide or regionally specific? Can credits be traded? Etc. · What types of systems are being deployed to remove what pollutants? Describe different sub-types and configurations within a type of system, and how common they are. · How much instrumentation is available on these systems, and what signals are measured (temperature, pressure, chemistry analysis, etc.)? How much diversity is there in the levels of available instrumentation? IPRO 303 Spring’09 13th February 2009 IPRO303 Project Plan Page 2 of 7 · What are the failure and performance degradation problems that occur? How common are they? What are the ramifications of these problems – outages, derates, having to burn more expensive fuel or turn up the “peaking” generation units that are more expensive to run, etc.? · How can the available instrumentation be used to remotely monitor and detect developing problems?
Sponsorship: SmartSignal
Deliverables
Show less
- Title
- Failure Prediction Modeling of Power Plant Emission Control Systems (Semester Unknown) IPRO 303: FailurePredictionModelingOfPowerPlantEmissionControlSystemsIPRO303FinalReportSp09
- Creator
- Arastu, Insiyah, Belanger, Dave, Bouikidis, John, Capps, Zachary, Hesser, Cari, Irish, Sean, Kaneria, Satyam, Mcquillan, Brett, Mohinani, Lavesh, Patel, Jay
- Date
- 2009, 2009-05
- Description
-
The main goal of IPRO 303 is to investigate how SmartSignal’s modeling technology can provide value in detecting problems on environmental...
Show moreThe main goal of IPRO 303 is to investigate how SmartSignal’s modeling technology can provide value in detecting problems on environmental systems: The main objectives that SmartSignal would like for the team to investigate are: · What are the regulatory drivers – changes in laws/regulation occurring at various points in time? Are the regulations fleet-wide or regionally specific? Can credits be traded? Etc. · What types of systems are being deployed to remove what pollutants? Describe different sub-types and configurations within a type of system, and how common they are. · How much instrumentation is available on these systems, and what signals are measured (temperature, pressure, chemistry analysis, etc.)? How much diversity is there in the levels of available instrumentation? IPRO 303 Spring’09 13th February 2009 IPRO303 Project Plan Page 2 of 7 · What are the failure and performance degradation problems that occur? How common are they? What are the ramifications of these problems – outages, derates, having to burn more expensive fuel or turn up the “peaking” generation units that are more expensive to run, etc.? · How can the available instrumentation be used to remotely monitor and detect developing problems?
Sponsorship: SmartSignal
Deliverables
Show less
- Title
- Failure Prediction Modeling of Power Plant Emission Control Systems (Semester Unknown) IPRO 303: FailurePredictionModelingOfPowerPlantEmissionControlSystemsIPRO303FinalPresentationSp09
- Creator
- Arastu, Insiyah, Belanger, Dave, Bouikidis, John, Capps, Zachary, Hesser, Cari, Irish, Sean, Kaneria, Satyam, Mcquillan, Brett, Mohinani, Lavesh, Patel, Jay
- Date
- 2009, 2009-05
- Description
-
The main goal of IPRO 303 is to investigate how SmartSignal’s modeling technology can provide value in detecting problems on environmental...
Show moreThe main goal of IPRO 303 is to investigate how SmartSignal’s modeling technology can provide value in detecting problems on environmental systems: The main objectives that SmartSignal would like for the team to investigate are: · What are the regulatory drivers – changes in laws/regulation occurring at various points in time? Are the regulations fleet-wide or regionally specific? Can credits be traded? Etc. · What types of systems are being deployed to remove what pollutants? Describe different sub-types and configurations within a type of system, and how common they are. · How much instrumentation is available on these systems, and what signals are measured (temperature, pressure, chemistry analysis, etc.)? How much diversity is there in the levels of available instrumentation? IPRO 303 Spring’09 13th February 2009 IPRO303 Project Plan Page 2 of 7 · What are the failure and performance degradation problems that occur? How common are they? What are the ramifications of these problems – outages, derates, having to burn more expensive fuel or turn up the “peaking” generation units that are more expensive to run, etc.? · How can the available instrumentation be used to remotely monitor and detect developing problems?
Sponsorship: SmartSignal
Deliverables
Show less
- Title
- Failure Prediction Modeling of Power Plant Emission Control Systems (Semester Unknown) IPRO 303
- Creator
- Arastu, Insiyah, Belanger, Dave, Bouikidis, John, Capps, Zachary, Hesser, Cari, Irish, Sean, Kaneria, Satyam, Mcquillan, Brett, Mohinani, Lavesh, Patel, Jay
- Date
- 2009, 2009-05
- Description
-
The main goal of IPRO 303 is to investigate how SmartSignal’s modeling technology can provide value in detecting problems on environmental...
Show moreThe main goal of IPRO 303 is to investigate how SmartSignal’s modeling technology can provide value in detecting problems on environmental systems: The main objectives that SmartSignal would like for the team to investigate are: · What are the regulatory drivers – changes in laws/regulation occurring at various points in time? Are the regulations fleet-wide or regionally specific? Can credits be traded? Etc. · What types of systems are being deployed to remove what pollutants? Describe different sub-types and configurations within a type of system, and how common they are. · How much instrumentation is available on these systems, and what signals are measured (temperature, pressure, chemistry analysis, etc.)? How much diversity is there in the levels of available instrumentation? IPRO 303 Spring’09 13th February 2009 IPRO303 Project Plan Page 2 of 7 · What are the failure and performance degradation problems that occur? How common are they? What are the ramifications of these problems – outages, derates, having to burn more expensive fuel or turn up the “peaking” generation units that are more expensive to run, etc.? · How can the available instrumentation be used to remotely monitor and detect developing problems?
Sponsorship: SmartSignal
Deliverables
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- Title
- Design a System to Recycle Condensate from Residential Air Conditioners (Semester Unknown) IPRO 348: DesignASystemToRecycleCondensateFromResidentialAirConditionersIPRO348FinalPresentationSu09
- 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
- 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
Show less
- Title
- Design a System to Recycle Condensate from Residential Air Conditioners (Semester Unknown) IPRO 348: DesignASystemToRecycleCondensateFromResidentialAirConditionersIPRO348ProjectPlanSu09
- 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
Show less
- 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.
Deliverables
Show less
- 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.
Deliverables
Show less
- 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
Show less
- 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
Show less
- 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
Show less