The patent badge is an abbreviated version of the USPTO patent document. The patent badge does contain a link to the full patent document.
The patent badge is an abbreviated version of the USPTO patent document. The patent badge covers the following: Patent number, Date patent was issued, Date patent was filed, Title of the patent, Applicant, Inventor, Assignee, Attorney firm, Primary examiner, Assistant examiner, CPCs, and Abstract. The patent badge does contain a link to the full patent document (in Adobe Acrobat format, aka pdf). To download or print any patent click here.
Patent No.:
Date of Patent:
Jan. 31, 2012
Filed:
Aug. 26, 2010
David Kurt Neumann, Colorado Springs, CO (US);
Nicholas J. Miller, Colorado Springs, CO (US);
Boris R. Nizamov, Colorado Springs, CO (US);
Thomas Lee Henshaw, Monument, CO (US);
Andrew R. Awtry, Colorado Springs, CO (US);
Jason K. Brasseur, Colorado Springs, CO (US);
Keith R. Hobbs, Colorado Springs, CO (US);
Jason A. Tobias, Colorado Springs, CO (US);
William E. Mcdermott, Littleton, CO (US);
David Kurt Neumann, Colorado Springs, CO (US);
Nicholas J. Miller, Colorado Springs, CO (US);
Boris R. Nizamov, Colorado Springs, CO (US);
Thomas Lee Henshaw, Monument, CO (US);
Andrew R. Awtry, Colorado Springs, CO (US);
Jason K. Brasseur, Colorado Springs, CO (US);
Keith R. Hobbs, Colorado Springs, CO (US);
Jason A. Tobias, Colorado Springs, CO (US);
William E. McDermott, Littleton, CO (US);
Neumann Systems Group, Inc., Colorado Springs, CO (US);
Abstract
The invention relates to a gas liquid contactor and effluent cleaning system and method and more particularly to an array of nozzles configured to produce uniformly spaced flat liquid jets shaped to minimize disruption from a gas. An embodiment of the invention is directed towards a gas liquid contactor module including a liquid inlet and outlet and a gas inlet and outlet. An array of nozzles is in communication with the liquid inlet and the gas inlet. The array of nozzles is configured to produce uniformly spaced flat liquid jets shaped to minimize disruption from a gas flow and maximize gas flow and liquid flow interactions while rapidly replenishing the liquid.