Gas/Liquid Membranes for Natural Gas Upgrading Quarterly Report: Number 7 (open access)

Gas/Liquid Membranes for Natural Gas Upgrading Quarterly Report: Number 7

Gas Technology Institute (GTI) is conducting this research program whose objective is to develop gas/liquid membranes for natural gas upgrading to assist DOE in achieving their goal of developing novel methods of upgrading low quality natural gas to meet pipeline specifications. Kvaerner Process Systems (KPS) and W. L. Gore & Associates (GORE) gas/liquid membrane contactors are based on expanded polytetrafluoroethylene (ePTFE) membranes acting as the contacting barrier between the contaminated gas stream and the absorbing liquid. These resilient membranes provide much greater surface area for transfer than other tower internals, with packing densities five to ten times greater, resulting in equipment 50-70% smaller and lower weight for the same treating service. The scope of the research program is to (1) build and install a laboratory- and a field-scale gas/liquid membrane absorber; (2) operate the units with a low quality natural gas feed stream for sufficient time to verify the simulation model of the contactors and to project membrane life in this severe service; and (3) conducted an economic evaluation, based on the data, to quantify the impact of the technology. Chevron, one of the major producers of natural gas, has offered to host the test at a gas treating plant. …
Date: July 1, 2003
Creator: Meyer, Howard S.
System: The UNT Digital Library
Gas/Liquid Membranes for Natural Gas Upgrading Quarterly Report: Number 12 (open access)

Gas/Liquid Membranes for Natural Gas Upgrading Quarterly Report: Number 12

Efforts this quarter have concentrated on design and planning for of a 50 MM scf/d dehydration skid testing at ChevronTexaco's Headlee Gas Plant in Odessa, TX. Potting and module materials testing concluded. Construction of the bench-scale equipment continued and a pre-engineering study on a subsea application of the technology was performed cofunded contracts with Research Partnership for Secure Energy for America and Gas Research Institute. GTI has decreased the effort under this contract pending DOE's obligation of the total contract funding.
Date: October 1, 2004
Creator: Meyer, Howard S.
System: The UNT Digital Library
Gas/Liquid Membranes for Natural Gas Upgrading Quarterly Report: Number 10 (open access)

Gas/Liquid Membranes for Natural Gas Upgrading Quarterly Report: Number 10

Efforts this quarter have concentrated on field site selection. ChevronTexaco has signed a contract with Kvaerner process Systems for the 50 MM scf/d dehydration skid at their Headlee Gas Plant in Odessa, TX for a commercial-scale test. This will allow the test to go forth. A new test schedule was established with testing beyond the existing contract completion date. Potting and module materials testing continued. Construction of the bench-scale equipment was started. Additional funding to support the test was obtained through a contract with Research Partnership for Secure Energy for America.
Date: April 1, 2004
Creator: Meyer, Howard S.
System: The UNT Digital Library
Gas/Liquid Membranes for Natural Gas Upgrading Quarterly Report: Number 11 (open access)

Gas/Liquid Membranes for Natural Gas Upgrading Quarterly Report: Number 11

Efforts this quarter have concentrated on design and planning for of a 50 MM scf/d dehydration skid testing at ChevronTexaco's Headlee Gas Plant in Odessa, TX. Potting and module materials testing continued. Construction of the bench-scale equipment continued. Additional funding to support the test was obtained through a contract with Research Partnership for Secure Energy for America. GTI has decreased the effort under this contract pending DOE's obligation of the total contract funding.
Date: July 1, 2004
Creator: Meyer, Howard S.
System: The UNT Digital Library
Gas/Liquid Membranes for Natural Gas Upgrading Quarterly Report: Number 2 (open access)

Gas/Liquid Membranes for Natural Gas Upgrading Quarterly Report: Number 2

Efforts this quarter have concentrated on legal agreements, including alternative field sites. Preliminary design of the bench-scale equipment has been initiated. Gas Technology Institute (GTI) is conducting this research program whose objective is to develop gas/liquid membranes for natural gas upgrading to assist DOE in achieving their goal of developing novel methods of upgrading low quality natural gas to meet pipeline specifications. Kvaerner Process Systems (KPS) and W. L. Gore & Associates (GORE) gas/liquid membrane contactors are based on expanded polytetrafluoroethylene (ePTFE) membranes acting as the contacting barrier between the contaminated gas stream and the absorbing liquid. These resilient membranes provide much greater surface area for transfer than other tower internals, with packing densities five to ten times greater, resulting in equipment 50--70% smaller and lower weight for the same treating service. The scope of the research program is to (1) build and install a laboratory- and a field-scale gas/liquid membrane absorber; (2) operate the units with a low quality natural gas feed stream for sufficient time to verify the simulation model of the contactors and to project membrane life in this severe service; and (3) conducted an economic evaluation, based on the data, to quantify the impact of the …
Date: June 1, 2002
Creator: Meyer, Howard S.
System: The UNT Digital Library
Gas/Liquid Membranes for Natural Gas Upgrading Quarterly Report: Number 8 (open access)

Gas/Liquid Membranes for Natural Gas Upgrading Quarterly Report: Number 8

Gas Technology Institute (GTI) is conducting this research program whose objective is to develop gas/liquid membranes for natural gas upgrading to assist DOE in achieving their goal of developing novel methods of upgrading low quality natural gas to meet pipeline specifications. Kvaerner Process Systems (KPS) and W. L. Gore & Associates (GORE) gas/liquid membrane contactors are based on expanded polytetrafluoroethylene (ePTFE) membranes acting as the contacting barrier between the contaminated gas stream and the absorbing liquid. These resilient membranes provide much greater surface area for transfer than other tower internals, with packing densities five to ten times greater, resulting in equipment 50-70% smaller and lower weight for the same treating service. The scope of the research program is to (1) build and install a laboratory- and a field-scale gas/liquid membrane absorber; (2) operate the units with a low quality natural gas feed stream for sufficient time to verify the simulation model of the contactors and to project membrane life in this severe service; and (3) conducted an economic evaluation, based on the data, to quantify the impact of the technology. Chevron, one of the major producers of natural gas, has offered to host the test at a gas treating plant. …
Date: October 1, 2003
Creator: Meyer, Howard S.
System: The UNT Digital Library
Gas/Liquid Membranes for Natural Gas Upgrading Quarterly Report: Number 13 (open access)

Gas/Liquid Membranes for Natural Gas Upgrading Quarterly Report: Number 13

Efforts this quarter have concentrated on design of and planning for a 50 MM scf/d dehydration skid testing at ChevronTexaco's Headlee Gas Plant in Odessa, TX. Potting and module materials testing concluded. Construction of the bench-scale equipment continued. GTI has decreased the effort under this contract pending DOE's obligation of the total contract funding.
Date: January 1, 2005
Creator: Meyer, Howard S.
System: The UNT Digital Library
Gas/Liquid Membranes for Natural Gas Upgrading Quarterly Report: Number 9 (open access)

Gas/Liquid Membranes for Natural Gas Upgrading Quarterly Report: Number 9

Efforts this quarter have concentrated on field site selection. ChevronTexaco has signed a contract with Kvaerner process Systems for the 50 MM scf/d dehydration skid at their Headlee Gas Plant in Odessa, TX for a commercial-scale test. This will allow the test to go forth. A new test schedule was established with testing beyond the existing contract completion date. Potting and module materials testing continued. Construction of the bench-scale equipment was started. Additional funding to support the test was obtained through a contract with Research Partnership for Secure Energy for America.
Date: January 1, 2004
Creator: Meyer, Howard S.
System: The UNT Digital Library
Gas/Liquid Membranes for Natural Gas Upgrading Quarterly Report: Number 1 (open access)

Gas/Liquid Membranes for Natural Gas Upgrading Quarterly Report: Number 1

A new project was initiated this quarter to develop gas/liquid membranes for natural gas upgrading. Efforts have concentrated on legal agreements, including alternative field sites. Gas Technology Institute (GTI) is conducting this research program whose objective is to develop gas/liquid membranes for natural gas upgrading to assist DOE in achieving their goal of developing novel methods of upgrading low quality natural gas to meet pipeline specifications. Kvaerner Process Systems (KPS) and W. L. Gore & Associates (GORE) gas/liquid membrane contactors are based on expanded polytetrafluoroethylene (ePTFE) membranes acting as the contacting barrier between the contaminated gas stream and the absorbing liquid. These resilient membranes provide much greater surface area for transfer than other tower internals, with packing densities five to ten times greater, resulting in equipment 50-70% smaller and lower weight for the same treating service. The scope of the research program is to (1) build and install a laboratory- and a field-scale gas/liquid membrane absorber; (2) operate the units with a low quality natural gas feed stream for sufficient time to verify the simulation model of the contactors and to project membrane life in this severe service; and (3) conducted an economic evaluation, based on the data, to quantify …
Date: June 1, 2002
Creator: Meyer, Howard S.
System: The UNT Digital Library
Gas/Liquid Membranes for Natural Gas Upgrading Quarterly Report: Number 5 (open access)

Gas/Liquid Membranes for Natural Gas Upgrading Quarterly Report: Number 5

Gas Technology Institute (GTI) is conducting this research program whose objective is to develop gas/liquid membranes for natural gas upgrading to assist DOE in achieving their goal of developing novel methods of upgrading low quality natural gas to meet pipeline specifications. Kvaerner Process Systems (KPS) and W. L. Gore & Associates (GORE) gas/liquid membrane contactors are based on expanded polytetrafluoroethylene (ePTFE) membranes acting as the contacting barrier between the contaminated gas stream and the absorbing liquid. These resilient membranes provide much greater surface area for transfer than other tower internals, with packing densities five to ten times greater, resulting in equipment 50-70% smaller and lower weight for the same treating service. The scope of the research program is to (1) build and install a laboratory- and a field-scale gas/liquid membrane absorber; (2) operate the units with a low quality natural gas feed stream for sufficient time to verify the simulation model of the contactors and to project membrane life in this severe service; and (3) conducted an economic evaluation, based on the data, to quantify the impact of the technology. Chevron, one of the major producers of natural gas, has offered to host the test at a gas treating plant. …
Date: January 1, 2003
Creator: Meyer, Howard S.
System: The UNT Digital Library
Gas/Liquid Membranes for Natural Gas Upgrading Quarterly Report: Number 6 (open access)

Gas/Liquid Membranes for Natural Gas Upgrading Quarterly Report: Number 6

Gas Technology Institute (GTI) is conducting this research program whose objective is to develop gas/liquid membranes for natural gas upgrading to assist DOE in achieving their goal of developing novel methods of upgrading low quality natural gas to meet pipeline specifications. Kvaerner Process Systems (KPS) and W. L. Gore & Associates (GORE) gas/liquid membrane contactors are based on expanded polytetrafluoroethylene (ePTFE) membranes acting as the contacting barrier between the contaminated gas stream and the absorbing liquid. These resilient membranes provide much greater surface area for transfer than other tower internals, with packing densities five to ten times greater, resulting in equipment 50-70% smaller and lower weight for the same treating service. The scope of the research program is to (1) build and install a laboratory- and a field-scale gas/liquid membrane absorber; (2) operate the units with a low quality natural gas feed stream for sufficient time to verify the simulation model of the contactors and to project membrane life in this severe service; and (3) conducted an economic evaluation, based on the data, to quantify the impact of the technology. Chevron, one of the major producers of natural gas, has offered to host the test at a gas treating plant. …
Date: April 1, 2003
Creator: Meyer, Howard S.
System: The UNT Digital Library
Gas/Liquid Membranes for Natural Gas Upgrading Quarterly Report: Number 3 (open access)

Gas/Liquid Membranes for Natural Gas Upgrading Quarterly Report: Number 3

Efforts this quarter have concentrated on legal agreements, including alternative field sites. Preliminary design of the bench-scale equipment continues. Gas Technology Institute (GTI) is conducting this research program whose objective is to develop gas/liquid membranes for natural gas upgrading to assist DOE in achieving their goal of developing novel methods of upgrading low quality natural gas to meet pipeline specifications. Kvaerner Process Systems (KPS) and W. L. Gore & Associates (GORE) gas/liquid membrane contactors are based on expanded polytetrafluoroethylene (ePTFE) membranes acting as the contacting barrier between the contaminated gas stream and the absorbing liquid. These resilient membranes provide much greater surface area for transfer than other tower internals, with packing densities five to ten times greater, resulting in equipment 50--70% smaller and lower weight for the same treating service. The scope of the research program is to (1) build and install a laboratory- and a field-scale gas/liquid membrane absorber; (2) operate the units with a low quality natural gas feed stream for sufficient time to verify the simulation model of the contactors and to project membrane life in this severe service; and (3) conducted an economic evaluation, based on the data, to quantify the impact of the technology. Chevron, …
Date: June 30, 2002
Creator: Meyer, Howard S.
System: The UNT Digital Library
Gas/Liquid Membranes for Natural Gas Upgrading Quarterly Report: Number 4 (open access)

Gas/Liquid Membranes for Natural Gas Upgrading Quarterly Report: Number 4

Gas Technology Institute (GTI) is conducting this research program whose objective is to develop gas/liquid membranes for natural gas upgrading to assist DOE in achieving their goal of developing novel methods of upgrading low quality natural gas to meet pipeline specifications. Kvaerner Process Systems (KPS) and W. L. Gore & Associates (GORE) gas/liquid membrane contactors are based on expanded polytetrafluoroethylene (ePTFE) membranes acting as the contacting barrier between the contaminated gas stream and the absorbing liquid. These resilient membranes provide much greater surface area for transfer than other tower internals, with packing densities five to ten times greater, resulting in equipment 50-70% smaller and lower weight for the same treating service. The scope of the research program is to (1) build and install a laboratory- and a field-scale gas/liquid membrane absorber; (2) operate the units with a low quality natural gas feed stream for sufficient time to verify the simulation model of the contactors and to project membrane life in this severe service; and (3) conducted an economic evaluation, based on the data, to quantify the impact of the technology. Chevron, one of the major producers of natural gas, has offered to host the test at a gas treating plant. …
Date: October 1, 2002
Creator: Meyer, Howard S.
System: The UNT Digital Library