Search results
(1 - 16 of 16)
- Title
- Zero Liquid Discharge (Semester Unknown) IPRO 302: ZeroLiquidDischargeIPRO302FinalPresentationSp09
- Creator
- Pattermann, William, Ashrafi, Sahar, Shin, Woo, Isoda, Mitchell, Hill, Ross, Latour, Catherine, Ballard, Ray, Ng, Angela, Lai, James, Ong, Alex, Beissinger, Danny
- Date
- 2009, 2009-05
- Description
-
The objective of this project is to identify, evaluate, and prioritize technologies that can be used to achieve zero discharge in a 500 MW...
Show moreThe objective of this project is to identify, evaluate, and prioritize technologies that can be used to achieve zero discharge in a 500 MW power plant using Powder River Basin coal. To accomplish this mission, we will: 1. Determine the water balance around a typical facility 2. Perform a qualitative assessment of the viability of the three technologies above toward meeting zero discharge. 3. Determine the size, first cost and operating cost for each combination of zero discharge unit operations considered 4. Identify creative options for reusing treated discharge water within the plant 5. Identify emerging technologies that might play a major role in the future.
Sponsorship: Sargent & Lundy
Deliverables
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- Title
- Zero Liquid Discharge (Semester Unknown) IPRO 302
- Creator
- Pattermann, William, Ashrafi, Sahar, Shin, Woo, Isoda, Mitchell, Hill, Ross, Latour, Catherine, Ballard, Ray, Ng, Angela, Lai, James, Ong, Alex, Beissinger, Danny
- Date
- 2009, 2009-05
- Description
-
The objective of this project is to identify, evaluate, and prioritize technologies that can be used to achieve zero discharge in a 500 MW...
Show moreThe objective of this project is to identify, evaluate, and prioritize technologies that can be used to achieve zero discharge in a 500 MW power plant using Powder River Basin coal. To accomplish this mission, we will: 1. Determine the water balance around a typical facility 2. Perform a qualitative assessment of the viability of the three technologies above toward meeting zero discharge. 3. Determine the size, first cost and operating cost for each combination of zero discharge unit operations considered 4. Identify creative options for reusing treated discharge water within the plant 5. Identify emerging technologies that might play a major role in the future.
Sponsorship: Sargent & Lundy
Deliverables
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- Title
- Zero Liquid Discharge (Semester Unknown) IPRO 302: ZeroLiquidDischargeIPRO302ProjectPlanSp09
- Creator
- Pattermann, William, Ashrafi, Sahar, Shin, Woo, Isoda, Mitchell, Hill, Ross, Latour, Catherine, Ballard, Ray, Ng, Angela, Lai, James, Ong, Alex, Beissinger, Danny
- Date
- 2009, 2009-05
- Description
-
The objective of this project is to identify, evaluate, and prioritize technologies that can be used to achieve zero discharge in a 500 MW...
Show moreThe objective of this project is to identify, evaluate, and prioritize technologies that can be used to achieve zero discharge in a 500 MW power plant using Powder River Basin coal. To accomplish this mission, we will: 1. Determine the water balance around a typical facility 2. Perform a qualitative assessment of the viability of the three technologies above toward meeting zero discharge. 3. Determine the size, first cost and operating cost for each combination of zero discharge unit operations considered 4. Identify creative options for reusing treated discharge water within the plant 5. Identify emerging technologies that might play a major role in the future.
Sponsorship: Sargent & Lundy
Deliverables
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- Title
- Zero Liquid Discharge (Semester Unknown) IPRO 302: ZeroLiquidDischargeIPRO302MidTermPresentationSp09
- Creator
- Pattermann, William, Ashrafi, Sahar, Shin, Woo, Isoda, Mitchell, Hill, Ross, Latour, Catherine, Ballard, Ray, Ng, Angela, Lai, James, Ong, Alex, Beissinger, Danny
- Date
- 2009, 2009-05
- Description
-
The objective of this project is to identify, evaluate, and prioritize technologies that can be used to achieve zero discharge in a 500 MW...
Show moreThe objective of this project is to identify, evaluate, and prioritize technologies that can be used to achieve zero discharge in a 500 MW power plant using Powder River Basin coal. To accomplish this mission, we will: 1. Determine the water balance around a typical facility 2. Perform a qualitative assessment of the viability of the three technologies above toward meeting zero discharge. 3. Determine the size, first cost and operating cost for each combination of zero discharge unit operations considered 4. Identify creative options for reusing treated discharge water within the plant 5. Identify emerging technologies that might play a major role in the future.
Sponsorship: Sargent & Lundy
Deliverables
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- Title
- Zero Liquid Discharge (Semester Unknown) IPRO 302: ZeroLiquidDischargeIPRO302PosterSp09
- Creator
- Pattermann, William, Ashrafi, Sahar, Shin, Woo, Isoda, Mitchell, Hill, Ross, Latour, Catherine, Ballard, Ray, Ng, Angela, Lai, James, Ong, Alex, Beissinger, Danny
- Date
- 2009, 2009-05
- Description
-
The objective of this project is to identify, evaluate, and prioritize technologies that can be used to achieve zero discharge in a 500 MW...
Show moreThe objective of this project is to identify, evaluate, and prioritize technologies that can be used to achieve zero discharge in a 500 MW power plant using Powder River Basin coal. To accomplish this mission, we will: 1. Determine the water balance around a typical facility 2. Perform a qualitative assessment of the viability of the three technologies above toward meeting zero discharge. 3. Determine the size, first cost and operating cost for each combination of zero discharge unit operations considered 4. Identify creative options for reusing treated discharge water within the plant 5. Identify emerging technologies that might play a major role in the future.
Sponsorship: Sargent & Lundy
Deliverables
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- Title
- Zero Liquid Discharge (Semester Unknown) IPRO 302: ZeroLiquidDischargeIPRO302BrochureSp09
- Creator
- Pattermann, William, Ashrafi, Sahar, Shin, Woo, Isoda, Mitchell, Hill, Ross, Latour, Catherine, Ballard, Ray, Ng, Angela, Lai, James, Ong, Alex, Beissinger, Danny
- Date
- 2009, 2009-05
- Description
-
The objective of this project is to identify, evaluate, and prioritize technologies that can be used to achieve zero discharge in a 500 MW...
Show moreThe objective of this project is to identify, evaluate, and prioritize technologies that can be used to achieve zero discharge in a 500 MW power plant using Powder River Basin coal. To accomplish this mission, we will: 1. Determine the water balance around a typical facility 2. Perform a qualitative assessment of the viability of the three technologies above toward meeting zero discharge. 3. Determine the size, first cost and operating cost for each combination of zero discharge unit operations considered 4. Identify creative options for reusing treated discharge water within the plant 5. Identify emerging technologies that might play a major role in the future.
Sponsorship: Sargent & Lundy
Deliverables
Show less
- Title
- Zero Liquid Discharge (Semester Unknown) IPRO 302: ZeroLiquidDischargeIPRO302FinalReportSp09
- Creator
- Pattermann, William, Ashrafi, Sahar, Shin, Woo, Isoda, Mitchell, Hill, Ross, Latour, Catherine, Ballard, Ray, Ng, Angela, Lai, James, Ong, Alex, Beissinger, Danny
- Date
- 2009, 2009-05
- Description
-
The objective of this project is to identify, evaluate, and prioritize technologies that can be used to achieve zero discharge in a 500 MW...
Show moreThe objective of this project is to identify, evaluate, and prioritize technologies that can be used to achieve zero discharge in a 500 MW power plant using Powder River Basin coal. To accomplish this mission, we will: 1. Determine the water balance around a typical facility 2. Perform a qualitative assessment of the viability of the three technologies above toward meeting zero discharge. 3. Determine the size, first cost and operating cost for each combination of zero discharge unit operations considered 4. Identify creative options for reusing treated discharge water within the plant 5. Identify emerging technologies that might play a major role in the future.
Sponsorship: Sargent & Lundy
Deliverables
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- Title
- BP Whiting Refinery Expansion: Developing Lake Michigan Wastewater Cleanup Options (Semester Unknown) IPRO 346: BP Whiting Refinery Expansion IPRO 346 Final Report Sp08
- Creator
- Ashrafi, Sahar, Ballard, Ray, Chock, Chris, Chung, Yak Yong, Fakhouri, Hana, Ferrese, Anthony, Fernando, Fernando, Haak, Laura, Hammes, Katherine, Kim, Jichul, Leasenby, Alex, Lewis, Richard, Li, Zhi, Malon, David, Michael, Henry, Park, Miri, Reimann, Kirsten, Roberts, Ben, Song, Jong Mu, Taracena, Willy, Truong, Josie, Ucci, Russel, Vassi, Anna, Walter, Michael, Witek, Andrew, Yoo, Jaewon, Zhao, Yin
- Date
- 2008, 2008-05
- Description
-
IPRO346 will focus on familiarizing itself with British Petroleum’s (BP) wastewater treatment plant (WTP) for its oil refinery in Whiting, IN....
Show moreIPRO346 will focus on familiarizing itself with British Petroleum’s (BP) wastewater treatment plant (WTP) for its oil refinery in Whiting, IN. Specifically, this IPRO will analyze the current permits and their stipulations regarding the amount of ammonia and total suspended solids (TSS) in the wastewater being dumped in Lake Michigan. Ultimately, possible methods and designs will be devised to reduce the levels of ammonia and TSS remaining in treated wastewater. These designs will take the form of a process flow sheet with a computer simulation to model the designs. At the culmination of this IPRO we will have several different models for possible upgrades to the Whiting refinery wastewater treatment plant to reduce the levels of ammonia and TSS in the wastewater entering Lake Michigan as well as a cost to implement each solution.
Deliverables
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- Title
- BP Whiting Refinery Expansion: Developing Lake Michigan Wastewater Cleanup Options (Semester Unknown) IPRO 346: BP Whiting Refinery Expansion IPRO 346 Project PlanSp08
- Creator
- Ashrafi, Sahar, Ballard, Ray, Chock, Chris, Chung, Yak Yong, Fakhouri, Hana, Ferrese, Anthony, Fernando, Fernando, Haak, Laura, Hammes, Katherine, Kim, Jichul, Leasenby, Alex, Lewis, Richard, Li, Zhi, Malon, David, Michael, Henry, Park, Miri, Reimann, Kirsten, Roberts, Ben, Song, Jong Mu, Taracena, Willy, Truong, Josie, Ucci, Russel, Vassi, Anna, Walter, Michael, Witek, Andrew, Yoo, Jaewon, Zhao, Yin
- Date
- 2008, 2008-05
- Description
-
IPRO346 will focus on familiarizing itself with British Petroleum’s (BP) wastewater treatment plant (WTP) for its oil refinery in Whiting, IN....
Show moreIPRO346 will focus on familiarizing itself with British Petroleum’s (BP) wastewater treatment plant (WTP) for its oil refinery in Whiting, IN. Specifically, this IPRO will analyze the current permits and their stipulations regarding the amount of ammonia and total suspended solids (TSS) in the wastewater being dumped in Lake Michigan. Ultimately, possible methods and designs will be devised to reduce the levels of ammonia and TSS remaining in treated wastewater. These designs will take the form of a process flow sheet with a computer simulation to model the designs. At the culmination of this IPRO we will have several different models for possible upgrades to the Whiting refinery wastewater treatment plant to reduce the levels of ammonia and TSS in the wastewater entering Lake Michigan as well as a cost to implement each solution.
Deliverables
Show less
- Title
- BP Whiting Refinery Expansion: Developing Lake Michigan Wastewater Cleanup Options (Semester Unknown) IPRO 346: BP Whiting Refinery Expansion IPRO 346 Midterm Report Sp08
- Creator
- Ashrafi, Sahar, Ballard, Ray, Chock, Chris, Chung, Yak Yong, Fakhouri, Hana, Ferrese, Anthony, Fernando, Fernando, Haak, Laura, Hammes, Katherine, Kim, Jichul, Leasenby, Alex, Lewis, Richard, Li, Zhi, Malon, David, Michael, Henry, Park, Miri, Reimann, Kirsten, Roberts, Ben, Song, Jong Mu, Taracena, Willy, Truong, Josie, Ucci, Russel, Vassi, Anna, Walter, Michael, Witek, Andrew, Yoo, Jaewon, Zhao, Yin
- Date
- 2008, 2008-05
- Description
-
IPRO346 will focus on familiarizing itself with British Petroleum’s (BP) wastewater treatment plant (WTP) for its oil refinery in Whiting, IN....
Show moreIPRO346 will focus on familiarizing itself with British Petroleum’s (BP) wastewater treatment plant (WTP) for its oil refinery in Whiting, IN. Specifically, this IPRO will analyze the current permits and their stipulations regarding the amount of ammonia and total suspended solids (TSS) in the wastewater being dumped in Lake Michigan. Ultimately, possible methods and designs will be devised to reduce the levels of ammonia and TSS remaining in treated wastewater. These designs will take the form of a process flow sheet with a computer simulation to model the designs. At the culmination of this IPRO we will have several different models for possible upgrades to the Whiting refinery wastewater treatment plant to reduce the levels of ammonia and TSS in the wastewater entering Lake Michigan as well as a cost to implement each solution.
Deliverables
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- Title
- BP Whiting Refinery Expansion: Developing Lake Michigan Wastewater Cleanup Options (Semester Unknown) IPRO 346: BP Whiting Refinery Expansion IPRO 346 Midterm Presenation Sp08
- Creator
- Ashrafi, Sahar, Ballard, Ray, Chock, Chris, Chung, Yak Yong, Fakhouri, Hana, Ferrese, Anthony, Fernando, Fernando, Haak, Laura, Hammes, Katherine, Kim, Jichul, Leasenby, Alex, Lewis, Richard, Li, Zhi, Malon, David, Michael, Henry, Park, Miri, Reimann, Kirsten, Roberts, Ben, Song, Jong Mu, Taracena, Willy, Truong, Josie, Ucci, Russel, Vassi, Anna, Walter, Michael, Witek, Andrew, Yoo, Jaewon, Zhao, Yin
- Date
- 2008, 2008-05
- Description
-
IPRO346 will focus on familiarizing itself with British Petroleum’s (BP) wastewater treatment plant (WTP) for its oil refinery in Whiting, IN....
Show moreIPRO346 will focus on familiarizing itself with British Petroleum’s (BP) wastewater treatment plant (WTP) for its oil refinery in Whiting, IN. Specifically, this IPRO will analyze the current permits and their stipulations regarding the amount of ammonia and total suspended solids (TSS) in the wastewater being dumped in Lake Michigan. Ultimately, possible methods and designs will be devised to reduce the levels of ammonia and TSS remaining in treated wastewater. These designs will take the form of a process flow sheet with a computer simulation to model the designs. At the culmination of this IPRO we will have several different models for possible upgrades to the Whiting refinery wastewater treatment plant to reduce the levels of ammonia and TSS in the wastewater entering Lake Michigan as well as a cost to implement each solution.
Deliverables
Show less
- Title
- BP Whiting Refinery Expansion: Developing Lake Michigan Wastewater Cleanup Options (Semester Unknown) IPRO 346: BP Whiting Refinery Expansion IPRO 346 Poster Sp08
- Creator
- Ashrafi, Sahar, Ballard, Ray, Chock, Chris, Chung, Yak Yong, Fakhouri, Hana, Ferrese, Anthony, Fernando, Fernando, Haak, Laura, Hammes, Katherine, Kim, Jichul, Leasenby, Alex, Lewis, Richard, Li, Zhi, Malon, David, Michael, Henry, Park, Miri, Reimann, Kirsten, Roberts, Ben, Song, Jong Mu, Taracena, Willy, Truong, Josie, Ucci, Russel, Vassi, Anna, Walter, Michael, Witek, Andrew, Yoo, Jaewon, Zhao, Yin
- Date
- 2008, 2008-05
- Description
-
IPRO346 will focus on familiarizing itself with British Petroleum’s (BP) wastewater treatment plant (WTP) for its oil refinery in Whiting, IN....
Show moreIPRO346 will focus on familiarizing itself with British Petroleum’s (BP) wastewater treatment plant (WTP) for its oil refinery in Whiting, IN. Specifically, this IPRO will analyze the current permits and their stipulations regarding the amount of ammonia and total suspended solids (TSS) in the wastewater being dumped in Lake Michigan. Ultimately, possible methods and designs will be devised to reduce the levels of ammonia and TSS remaining in treated wastewater. These designs will take the form of a process flow sheet with a computer simulation to model the designs. At the culmination of this IPRO we will have several different models for possible upgrades to the Whiting refinery wastewater treatment plant to reduce the levels of ammonia and TSS in the wastewater entering Lake Michigan as well as a cost to implement each solution.
Deliverables
Show less
- Title
- BP Whiting Refinery Expansion: Developing Lake Michigan Wastewater Cleanup Options (Semester Unknown) IPRO 346: BP Whiting Refinery Expansion IPRO 346 Final Presentation Sp08
- Creator
- Ashrafi, Sahar, Ballard, Ray, Chock, Chris, Chung, Yak Yong, Fakhouri, Hana, Ferrese, Anthony, Fernando, Fernando, Haak, Laura, Hammes, Katherine, Kim, Jichul, Leasenby, Alex, Lewis, Richard, Li, Zhi, Malon, David, Michael, Henry, Park, Miri, Reimann, Kirsten, Roberts, Ben, Song, Jong Mu, Taracena, Willy, Truong, Josie, Ucci, Russel, Vassi, Anna, Walter, Michael, Witek, Andrew, Yoo, Jaewon, Zhao, Yin
- Date
- 2008, 2008-05
- Description
-
IPRO346 will focus on familiarizing itself with British Petroleum’s (BP) wastewater treatment plant (WTP) for its oil refinery in Whiting, IN....
Show moreIPRO346 will focus on familiarizing itself with British Petroleum’s (BP) wastewater treatment plant (WTP) for its oil refinery in Whiting, IN. Specifically, this IPRO will analyze the current permits and their stipulations regarding the amount of ammonia and total suspended solids (TSS) in the wastewater being dumped in Lake Michigan. Ultimately, possible methods and designs will be devised to reduce the levels of ammonia and TSS remaining in treated wastewater. These designs will take the form of a process flow sheet with a computer simulation to model the designs. At the culmination of this IPRO we will have several different models for possible upgrades to the Whiting refinery wastewater treatment plant to reduce the levels of ammonia and TSS in the wastewater entering Lake Michigan as well as a cost to implement each solution.
Deliverables
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- Title
- BP Whiting Refinery Expansion: Developing Lake Michigan Wastewater Cleanup Options (Semester Unknown) IPRO 346: BP Whiting Refinery Expansion IPRO 346 Ethics Sp08
- Creator
- Ashrafi, Sahar, Ballard, Ray, Chock, Chris, Chung, Yak Yong, Fakhouri, Hana, Ferrese, Anthony, Fernando, Fernando, Haak, Laura, Hammes, Katherine, Kim, Jichul, Leasenby, Alex, Lewis, Richard, Li, Zhi, Malon, David, Michael, Henry, Park, Miri, Reimann, Kirsten, Roberts, Ben, Song, Jong Mu, Taracena, Willy, Truong, Josie, Ucci, Russel, Vassi, Anna, Walter, Michael, Witek, Andrew, Yoo, Jaewon, Zhao, Yin
- Date
- 2008, 2008-05
- Description
-
IPRO346 will focus on familiarizing itself with British Petroleum’s (BP) wastewater treatment plant (WTP) for its oil refinery in Whiting, IN....
Show moreIPRO346 will focus on familiarizing itself with British Petroleum’s (BP) wastewater treatment plant (WTP) for its oil refinery in Whiting, IN. Specifically, this IPRO will analyze the current permits and their stipulations regarding the amount of ammonia and total suspended solids (TSS) in the wastewater being dumped in Lake Michigan. Ultimately, possible methods and designs will be devised to reduce the levels of ammonia and TSS remaining in treated wastewater. These designs will take the form of a process flow sheet with a computer simulation to model the designs. At the culmination of this IPRO we will have several different models for possible upgrades to the Whiting refinery wastewater treatment plant to reduce the levels of ammonia and TSS in the wastewater entering Lake Michigan as well as a cost to implement each solution.
Deliverables
Show less
- Title
- BP Whiting Refinery Expansion: Developing Lake Michigan Wastewater Cleanup Options (Semester Unknown) IPRO 346: BP Whiting Refinery Expansion IPRO 346 Brochure Sp08
- Creator
- Ashrafi, Sahar, Ballard, Ray, Chock, Chris, Chung, Yak Yong, Fakhouri, Hana, Ferrese, Anthony, Fernando, Fernando, Haak, Laura, Hammes, Katherine, Kim, Jichul, Leasenby, Alex, Lewis, Richard, Li, Zhi, Malon, David, Michael, Henry, Park, Miri, Reimann, Kirsten, Roberts, Ben, Song, Jong Mu, Taracena, Willy, Truong, Josie, Ucci, Russel, Vassi, Anna, Walter, Michael, Witek, Andrew, Yoo, Jaewon, Zhao, Yin
- Date
- 2008, 2008-05
- Description
-
IPRO346 will focus on familiarizing itself with British Petroleum’s (BP) wastewater treatment plant (WTP) for its oil refinery in Whiting, IN....
Show moreIPRO346 will focus on familiarizing itself with British Petroleum’s (BP) wastewater treatment plant (WTP) for its oil refinery in Whiting, IN. Specifically, this IPRO will analyze the current permits and their stipulations regarding the amount of ammonia and total suspended solids (TSS) in the wastewater being dumped in Lake Michigan. Ultimately, possible methods and designs will be devised to reduce the levels of ammonia and TSS remaining in treated wastewater. These designs will take the form of a process flow sheet with a computer simulation to model the designs. At the culmination of this IPRO we will have several different models for possible upgrades to the Whiting refinery wastewater treatment plant to reduce the levels of ammonia and TSS in the wastewater entering Lake Michigan as well as a cost to implement each solution.
Deliverables
Show less
- Title
- BP Whiting Refinery Expansion: Developing Lake Michigan Wastewater Cleanup Options (Semester Unknown) IPRO 346
- Creator
- Ashrafi, Sahar, Ballard, Ray, Chock, Chris, Chung, Yak Yong, Fakhouri, Hana, Ferrese, Anthony, Fernando, Fernando, Haak, Laura, Hammes, Katherine, Kim, Jichul, Leasenby, Alex, Lewis, Richard, Li, Zhi, Malon, David, Michael, Henry, Park, Miri, Reimann, Kirsten, Roberts, Ben, Song, Jong Mu, Taracena, Willy, Truong, Josie, Ucci, Russel, Vassi, Anna, Walter, Michael, Witek, Andrew, Yoo, Jaewon, Zhao, Yin
- Date
- 2008, 2008-05
- Description
-
IPRO346 will focus on familiarizing itself with British Petroleum’s (BP) wastewater treatment plant (WTP) for its oil refinery in Whiting, IN....
Show moreIPRO346 will focus on familiarizing itself with British Petroleum’s (BP) wastewater treatment plant (WTP) for its oil refinery in Whiting, IN. Specifically, this IPRO will analyze the current permits and their stipulations regarding the amount of ammonia and total suspended solids (TSS) in the wastewater being dumped in Lake Michigan. Ultimately, possible methods and designs will be devised to reduce the levels of ammonia and TSS remaining in treated wastewater. These designs will take the form of a process flow sheet with a computer simulation to model the designs. At the culmination of this IPRO we will have several different models for possible upgrades to the Whiting refinery wastewater treatment plant to reduce the levels of ammonia and TSS in the wastewater entering Lake Michigan as well as a cost to implement each solution.
Deliverables
Show less