1
Wendy D Bennett, Peter M Martin, Dean W Matson, Gary L Roberts, Donald C Stewart, Annalee Y Tonkovich, Jennifer L Zilka, Stephen C Schmitt, Timothy M Werner: Active microchannel fluid processing unit and method of making. Battelle Memorial Institute, Paul W Zimmerman, February 27, 2001: US06192596 (110 worldwide citation)

The present invention is an active microchannel fluid processing unit and method of making, both relying on having (a) at least one inner thin sheet; (b) at least one outer thin sheet; (c) defining at least one first sub-assembly for performing at least one first unit operation by stacking a first o ...


2
Peter M Martin, Wendy D Bennett, Dean W Matson, Donald C Stewart, Monte K Drost, Robert S Wegeng, Joseph M Perez, Xiangdong Feng, Jun Liu: Microchannel laminated mass exchanger and method of making. Battelle Memorial Institute, Paul W Zimmerman, October 10, 2000: US06129973 (85 worldwide citation)

The present invention is a microchannel mass exchanger having a first plurality of inner thin sheets and a second plurality of outer thin sheets. The inner thin sheets each have a solid margin around a circumference, the solid margin defining a slot through the inner thin sheet thickness. The outer ...


3
Peter M Martin, Wendy D Bennett, Dean W Matson, Donald C Stewart, Monte K Drost, Robert S Wegeng, Joseph M Perez, Xiangdong Feng, Jun Liu: Microchannel laminated mass exchanger and method of making. Battelle Memorial Institute, Paul W Zimmerman, Frank S Rosenberg, March 5, 2002: US06352577 (63 worldwide citation)

The present invention is a microchannel mass exchanger having a first plurality of inner thin sheets and a second plurality of outer thin sheets. The inner thin sheets each have a solid margin around a circumference, the solid margin defining a slot through the inner thin sheet thickness. The outer ...


4
Peter M Martin, Wendy D Bennett, Dean W Matson, Donald C Stewart, Monte K Drost, Robert S Wegeng, Joseph M Perez, Xiangdong Feng, Jun Liu: Microchannel laminated mass exchanger and method of making. Battelle Memorial Institute, Stephen R May, Frank S Rosenberg, March 18, 2003: US06533840 (53 worldwide citation)

The present invention is a microchannel mass exchanger having a first plurality of inner thin sheets and a second plurality of outer thin sheets. The inner thin sheets each have a solid margin around a circumference, the solid margin defining a slot through the inner thin sheet thickness. The outer ...


5
Dean W Matson, John L Fulton, Richard D Smith, Keith A Consani: Chemical reactions in reverse micelle systems. Battelle Memorial Institute, Marger Johnson McCollom & Stolowitz, August 24, 1993: US05238671 (51 worldwide citation)

This invention is directed to conducting chemical reactions in reverse micelle or microemulsion systems comprising a substantially discontinuous phase including a polar fluid, typically an aqueous fluid, and a microemulsion promoter, typically a surfactant, for facilitating the formation of reverse ...


6
Wendy D Bennett, Donald J Hammerstrom, Peter M Martin, Dean W Matson: Laminated microchannel devices, mixing units and method of making same. Battelle Memorial Institute, Stephen R May, Frank S Rosenberg, December 17, 2002: US06494614 (50 worldwide citation)

A laminated microchannel device is described in which there is a unit operation process layer that has longitudinal channel. The longitudinal channel is cut completely through the layer in which the unit process operation resides. Both the device structure and method of making the device provide sig ...


7
Dean W Matson, John L Fulton, John C Linehan, Roger M Bean, Thomas D Brewer, Todd A Werpy, John G Darab: Catalyst material and method of making. Battelle Memorial Institute, Paul W Zimmerman, July 29, 1997: US05652192 (47 worldwide citation)

The material of the present invention is a mixture of catalytically active material and carrier materials, which may be catalytically active themselves. Hence, the material of the present invention provides a catalyst particle that has catalytically active material throughout its bulk volume as well ...


8
Robert S Wegeng, Scot D Rassat, Victoria S Stenkamp, Ward E TeGrotenhuis, Dean W Matson, M Kevin Drost, Vilayanur V Viswanathan: Method for thermal swing adsorption and thermally-enhanced pressure swing adsorption. Battelle Memorial Institute, Frank Rosenberg, Stephen R May, October 7, 2003: US06630012 (46 worldwide citation)

The present invention provides compact adsorption systems that are capable of rapid temperature swings and rapid cycling. Novel methods of thermal swing adsorption and thermally-enhanced pressure swing adsorption are also described. In some aspects of the invention, a gas is passed through the adsor ...


9
Robert S Wegeng, Scot D Rassat, Victoria S Stenkamp, Ward E TeGrotenhuis, Dean W Matson, M Kevin Drost, Vilayanur V Viswanathan: Apparatus for thermal swing adsorption and thermally-enhanced pressure swing adsorption. Battelle Memorial Institute, Frank Rosenberg, Todd J Harrington, December 13, 2005: US06974496 (42 worldwide citation)

The present invention provides compact adsorption systems that are capable of rapid temperature swings and rapid cycling. Novel methods of thermal swing adsorption and thermally-enhanced pressure swing adsorption are also described. In some aspects of the invention, a gas is passed through the adsor ...


10
Wendy D Bennett, Peter M Martin, Dean W Matson, Gary L Roberts, Donald C Stewart, Annalee Y Tonkovich, Jennifer L Zilka, Stephen C Schmitt, Timothy M Werner: Active microchannel fluid processing unit and method of making. Battelle Memorial Institute, Stephen R May, Frank S Rosenberg, December 10, 2002: US06490812 (37 worldwide citation)

The present invention is an active microchannel fluid processing unit and method of making, both relying on having (a) at least one inner thin sheet; (b) at least one outer thin sheet; (c) defining at least one first sub-assembly for performing at least one first unit operation by stacking a first o ...