Abstract: A process for turbulently flowing together reactants in uniform proportions in a reactor vessel. A process for producing ethylbenzene by reacting ethylene and benzene in the presence of a catalyst in a reactor vessel from which useful heat generated by the reaction is transferred to a heat transfer medium flowing through the reactor and in which the reaction occurs in a relatively short time period. In one embodiment, polyethylbenzenes produced in the reactor vessel are not recycled into the vessel. A reactor for a reaction of reactant materials that are uniformly and turbulently mixed together.

Abstract: A process for turbulently flowing together reactants in uniform proportions in a reactor vessel. A process for producing ethylbenzene by reacting ethylene and benzene in the presence of a catalyst in a reactor vessel from which useful heat generated by the reaction is transferred to a heat transfer medium flowing through the reactor and in which the reaction occurs in a relatively short time period. In one embodiment, polyethylbenzenes produced in the reactor vessel are not recycled into the vessel. A reactor for a reaction of reactant materials that are uniformly and turbulently mixed together.

Abstract: Metal alloys containing nickel are protected from denickelification upon exposure to halogenated hydrocarbons at elevated temperatures by the addition of a lower alkylcyanide in minor proportions to the halogenated hydrocarbon.

Abstract: An improved process for production of allyl chloride which comprises (1) thermally chlorinating propylene above 300.degree. C., but below that at which substantial carbon formation is effected, (2) separating the allyl chloride from its by-products, (3) subjecting the unsaturated compounds in said by-products to a low temperature chlorination, (4) separating the 1,2-dichloropropane from the products of said low temperature chlorination, and (5) passing said 1,2-dichloropropane to a cracking furnace. The effluent from the cracking furnace can be recycled to the allyl chloride finishing system by adding it to the high temperature propylene chlorination reactor effluent. Reaction temperatures are optimized to eliminate problems caused by carbon formation in the high temperature chlorination reactor, while overall yields of allyl chloride are increased and effluents which are ecologically and economically undesirable are reduced.

Abstract: A method for reducing losses due to reactions between hydrogen halides and olefinically unsaturated organic compounds in the presence of transition metals which act as catalysts for hydrohalogenation in mixtures containing same by adding to said mixtures a compound selected from the class consisting of alkyl diketones. The present invention is of particular value in the separation of components of said mixtures by distillation, but may also be usefully employed in any operation in which these mixtures are maintained in the presence of said catalytic materials. The present method offers advantages over the prior art because of the relative low toxicity and flammability of diketones and the fact that no undesirable solids are formed to foul process equipment as with some known methods.

Abstract: A process for removing chlorinated hydrocarbon impurities from 1,2-dichloroethane streams by partially or completely hydrogenating some or all of the impurities therein by passing hydrogen into said stream in the presence of a palladium hydrogenation catalyst under conditions which do not promote the decomposition of the ethylene dichloride in said stream.

Abstract: An improved process for preparation of 1,1,1-trichloroethane and/or vinylidene chloride by the direct high temperature chlorination of ethane, ethyl chloride, ethylene, 1,1-dichloroethane or mixtures thereof wherein the relatively small quantities of unsaturated, chlorinated compounds containing more than two carbon atoms formed as by-products are selectively reacted with elemental chlorine to produce stable compounds which are not detrimental to the efficient operation of subsequent iron catalyzed hydrochlorination and dehydrochlorination steps. This is accomplished in the presence of relatively high concentration of valuable unsaturated C.sub.2 's.

Abstract: A process for preparing 1,1,1-trichloroethane from ethylene and chlorine by hydrochlorinating the ethylene in the presence of aluminum chloride in a liquid phase reaction zone followed by chlorination of the resulting reaction product and finally by hydrochlorination of the effluent from the chlorinator in the presence of ferric chloride. The principal product of this reaction is 1,1,1-trichloroethane. Numerous by-products and partially chlorinated and unsaturated chlorohydrocarbons are also produced but, in the major part, these are recyclable and produce, upon being recycled to the appropriate step, the precursors of or the desired 1,1,1-trichloroethane product.

Abstract: 1,1,1-Trichloroethane containing 1,2-dichloroethane as a principal contaminant is purified by extractive distillation, employing as an extraction solvent a saturated or unsaturated tertiary C.sub.4 to C.sub.7 alcohol, e.g., t-amyl alcohol, 2-methyl-3-buten-2-ol or 2-methyl-3-butyn-2-ol, or mixtures thereof, organic monocarboxylic acids and organic monocarboxylic acid anhydrides.