Mckinnie, US
Benjamin Scott Mckinnie, Rose Hill, KS US
Patent application number | Description | Published |
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20100155533 | COMPOSITE FORWARD PRESSURE BULKHEAD - A forward pressure bulkhead for aircraft includes an energy dissipating material layer, a metallic or nonmetallic inboard skin with a porous filler material positioned within said layers. The energy and load distribution layer redistributes and disperses energy of impacts and penetrations. The porous filler material is a material having ligaments that collapse resulting in a densification of the porous filler material in response to impact loading or a compression force sufficient to cause failure of the combined assembly. | 06-24-2010 |
20100155537 | ENERGY-ABSORBING STRUCTURAL COMPOSITE ELEMENT - A structural, energy absorbing composite element for aircraft structures includes a metallic or nonmetallic skin shell with a porous filler material insert positioned within the skin shell. The porous filler material is a material having ligaments that collapse resulting in a densification of the porous filler material in response to impact loading or a compression force sufficient to cause failure of the combined assembly. | 06-24-2010 |
B. Gary Mckinnie, Magnolia, AR US
Patent application number | Description | Published |
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20090054709 | Process For Producing N-Propyl Bromide or Other Aliphatic Bromides - A process for the production of an aliphatic bromide in which the bromine atom is attached to a terminal carbon atom, which process comprises continuously feeding olefin having a terminal double bond, gaseous hydrogen bromide, and a molecular oxygen-containing gas into a liquid phase reaction medium comprised of aliphatic bromide to cause anti-Markovnikov addition of HBr to terminal olefin, the feeds being proportioned and maintained to provide a molar excess of hydrogen bromide relative to terminal olefin in the range of about 1 to about 5 percent, and a molar ratio of molecular oxygen to terminal olefin of less than 0.005. The process is especially suited for production of n-propyl bromide. | 02-26-2009 |
Bonnie G. Mckinnie, Magnolia, AK US
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20080318829 | Processes For Production and Purification of Normal Propyl Bromide - A process for oxygen-initiated hydrobromination of propene to form a crude reaction mixture of 95 GC area % n-propyl bromide. The process includes feeding an oxygen-containing gas, propene and hydrogen bromide into a liquid phase mixture comprised of n-propyl bromide and hydrogen bromide. At least the oxygen-containing gas and the propene of the feed are fed subsurface to the liquid phase mixture and either (a) the oxygen-containing gas and the propene do not come together in the absence of hydrogen bromide or (b) the oxygen-containing gas and the propene come together only in a propene:oxygen molar ratio in the range of 145:1 to 180:1. Purification processes provide a propyl bromide product containing at least 99.7 GC area % n-propyl bromide. Also provided is a novel composition of enhanced thermal stability which comprises a mixture of n-propyl bromide and isopropyl bromide. The mixture has an n-propyl bromide content of at least 99.7 GC area %, and an isopropyl bromide content of no more than 0.05 GC area %. The mixture, if subjected to storage in a closed chemically inert container at 60° C. for at least 480 hours, has an APHA color of 10 or less while the mixture is devoid of any added stabilizer component. | 12-25-2008 |
Bonnie Gary Mckinnie, Magnolia, AR US
Patent application number | Description | Published |
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20080228015 | PREPARATION AND PROVISION OF HIGH ASSAY DECABROMODIPHENYLETHANE - High assay reaction-derived decabromodiphenylethane product is produced and provided. The process comprises feeding diphenylethane, a partially brominated diphenylethane, or both subsurface into the liquid phase of a reaction mixture formed from components comprising excess liquid bromine and aluminum-based Lewis acid bromination catalyst. The temperature of the reaction mixture, the catalyst concentration in the excess bromine in the reaction mixture, and the feed time are coordinated in the processes to produce high assay reaction-derived decabromodiphenylethane product. Ways of effecting such coordination are described. | 09-18-2008 |
20090253608 | Stabilized Propyl Bromide Compositions - Certain substituted phenolic compounds when used with or without 1,2-epoxides as the sole stabilizer components are very effective in stabilizing n-propyl bromide (NPB). In a standard commercially important 60° C. stability test, representative substituted phenolic compounds used pursuant to this invention, can enable NPB to pass the test even though present at levels of about 50 ppm (wt/wt) or less in NPB containing no other stabilizer additive component. In fact, amounts as low as 1 ppm have been found effective with various substituted phenolic compounds. In addition, it has been found that one of the preferred stabilizers of this invention—2,6-di-tert-butyl-p-cresol—even though higher boiling than NPB, left inconsequential amounts of residue at least throughout the range of 1 to 30 ppm (wt/wt). Also, it has been found that certain other preferred stabilizers of this invention can provide synergistically improved stability in passing the 60° C. stability test when used with at least one 1,2-epoxide, notably butylene oxide. | 10-08-2009 |
20100015034 | PROCESSES FOR OXIDIZING HYDROGEN BROMIDE TO PRODUCE ELEMENTAL BROMINE - Processes are provided for catalytic oxidation of bromide to bromine by use of oxygen at temperatures of at least about 315° C. in the presence of a cerium-containing compound, such as a cerium bromide catalyst, wherein the produced stream comprising Br | 01-21-2010 |
20100030005 | PROCESSES FOR PRODUCING HIGHER HYDROCARBONS FROM METHANE AND BROMINE - Processes for producing C2+ hydrocarbons are provided. Such processes use Br2, HBr, and/or heat that are produced by such processes, thus providing commercially efficient processes. The process can comprise (a) producing HBr and methyl bromide using a bromine source and a gas stream comprising methane; (b) heating the methyl bromide in the presence of a catalyst to produce additional HBr and C2+ hydrocarbons; (c) combining at least some of the HBr and an oxygen source in the presence of a cerium-containing compound at least about 315° C. to produce Br2; and (d) using at least some of the produced Br2 from (c) as at least a portion of the bromine source in (a). Additionally, the additional HBr from (b) can be used in (c) and/or heat can be recovered from (c) and used to provide at least some of the heating in (a), (b), or both. | 02-04-2010 |