Abstract: A gas mixer is disclosed which includes a vessel (10) (e.g., pipe) containing a stream (12) of a first hydrocarbon-containing gas. The mixer includes a hollow pipe (14) located internal to the vessel containing a stream of a second gas, e.g., an oxygen-containing gas stream such as a stream of pure oxygen gas or air enriched with oxygen. The internal pipe further includes a mixer tip (30) at the peripheral end thereof. The mixer tip includes a body having an internal passage for conducting the second gas out of the pipe and an opening introducing the second gas stream into the first gas stream in a radial plane at an acute angle relative to the longitudinal axis of the pipe. The pipe further includes a deflector (20) on its external surface in longitudinal alignment with the opening of the mixer tip. The deflector serves to deflect any entrained particles within the first gas stream away from the mixing zone where the two streams mix, minimizing the risk of ignition of the hydrocarbon-containing gas.
Type:
Application
Filed:
November 12, 2008
Publication date:
July 29, 2010
Applicant:
DOW TECHNOLOGY INVESTMENTS LLC
Inventors:
Harvey E. Andresen, Christopher P. Christenson, Charles W. Lipp, John R. Mayer, Thomas J. Kling, Victor R. Fey, Laurence G. Britton, Michael J. Rangitsch, Michael L. Hutchison
Abstract: This invention relates to a process of producing one or more of an alkylene glycol or poly-alkylene glycol by the reaction of an alkylene oxide and water whereby reduced levels of undesired by products such as carbonyl compounds, ultraviolet light absorbing compounds and various metal species are produced.
Abstract: A process for the minimization of phosphonium ion ligand degradation products formed during reaction of a polyunsaturated olefin or an unconjugated functionalized olefin in the presence of a transition metal-triorganophosphine ligand complex catalyst to form as a product, by-product, or intermediate product a conjugated functionalized olefin having a carbon-carbon double bond conjugated to an ?-electron-withdrawing group, such as, an ?,?-unsaturated aldehyde, ketone, ester, acid, or nitrile. The minimization process involves conducting the reaction under selected conditions of conversion, temperature, pressure, or a combination thereof; and/or by selecting a triorganophosphine ligand with a specified steric and/or electronic property.
Type:
Grant
Filed:
January 24, 2008
Date of Patent:
February 3, 2009
Assignee:
Dow Technology Investments LLC
Inventors:
John R. Briggs, Wei-Jun Peng, Brian M. Roesch, Anthony G. Abatjoglou, Donald L. Morrison