Abstract: Solid waste, including municipal, agricultural, industrial, vegetable and animal matter, garbage and waste paper, is progressively converted by means of partial oxidation and distillation into gas under controlled temperature and pressure conditions and the gas is made suitable for industrial and chemical uses by being purified and separated into its main components or ingredients.
Abstract: Disclosed herein is a process for disposing of aqueous sewage and for producing fresh water by coking the sewage in the liquid phase to form gases, coke and an effluent which is extracted with a hot liquid hydrocarbon to form a hydrocarbon-water solution and a hot concentrated brine. The hot brine is injected into the sewage sludge to heat same to coking temperature. Hot water is removed from the hydrocarbon-water solution, used for space heating or the like and thereby cooled. The cool water then is passed through a carbon absorber to remove traces of hydrocarbon dissolved therein, and chlorinated to give potable water.
Type:
Grant
Filed:
September 11, 1974
Date of Patent:
June 8, 1976
Assignee:
Texaco Inc.
Inventors:
Howard V. Hess, William F. Franz, Edward L. Cole
Abstract: A pyrolysing vessel in which the inlets and outlets for the charge and the pyrolysing gas are so arranged that charge and gas pass through the vessel along paths that meet substantially at right angles. The charge may descend vertically, and the vessel may taper outwardly and downwardly to aid this descent. The gas may enter and leave the vessel through grilles that can be oscillated to further aid the descent. Pyrolysing plant including the vessel may include means to take a fraction of the gas at the outlet and recycle it through a heater to the gas inlet.
Type:
Grant
Filed:
August 28, 1974
Date of Patent:
June 8, 1976
Assignee:
National Research Development Corporation
Abstract: Solid animal excreta, such as solid livestock excreta, solid human excreta and solid poultry excreta, is converted to useful products by particulating the excreta and heat treating it in a closed heating zone at about 200.degree.C to about 1000.degree.C for a time sufficient to volatilize a portion thereof and provide the solid residue with a carbon content of about 1% to about 80 weight percent. The volatilized portion can be withdrawn from the heating zone and separately recovered by condensing the condensibles. This consists of an aqueous and a non-aqueous portion. The non-aqueous portion of the condensate is oleaginous in the form of an oil, grease or wax containing nitrogenous substances and is useful for a variety of purposes. The aqueous portion is rich in nitrogen and is useful as a fertilizer. The solid particulate residue can be employed as a foaming agent or filler for glass products and as a coloring agent or pigment in inks, paints and rubber products.
Type:
Grant
Filed:
June 17, 1974
Date of Patent:
June 8, 1976
Assignee:
The Regents of the University of California
Abstract: Hard abrasion-resistant carbon is obtained from polymerized halohydrocarbons by elimination of hydrogen halide in a two-stage process carried out so that in the first decomposition stage, which is carried out at temperatures within the range from 140.degree. to 250.degree.C, a definite amount (not less than 5% by weight and not more than 50% by weight) of the total amount of hydrogen halide capable of being split off is removed. Appropriately shaped end products can be obtained by using raw materials having a globular, cylindrical or other shape. The carbon obtained is suitable as the stationary phase for chromatographic separation and analysis of mixtures.
Type:
Grant
Filed:
July 5, 1974
Date of Patent:
June 1, 1976
Assignee:
Sirmac Ltd.
Inventors:
Willi Ripperger, Willi Oettinger, Rudolf Kaiser, Klaus Pfitzner, Richard Adolf Palm
Abstract: A method of treating municipal waste which contains cellulose comprises combining the waste with an alkali metal meta-aluminate, such as sodium aluminate, to form a carbonizing mixture and then heating the carbonizing mixture, in air, to carbonize the waste material.
Abstract: Solid waste material is disposed of and a portion thereof converted into valuable refractory material within a reactor having a substantially vertical pyrolysis chamber, a refuse charging inlet and a combustible gas outlet in the upper region thereof and a molten refractory material outlet in the lower region thereof. Gas-feed means charges an oxygen-rich gas into the chamber under pressure at a plurality of vertically spaced points along the length thereof so as to produce combustion of the waste organic components and generate heat. The charge is controlled to maintain a plurality of different temperature zones along the length of the chamber so as to effect incomplete combustion of the waste organic component and form a combustible gas and an organic-free molten refractory material.
Type:
Grant
Filed:
January 16, 1975
Date of Patent:
May 11, 1976
Assignee:
Urban Research & Development Corporation
Abstract: Organic and pseudo-organic materials, such as waste materials, for example, are processed in a converter system and decomposed into various usable and reusable forms. Inorganic metals and salts are treated likewise in the same converter system and processed into various usable and reusable forms. While being carried by a conveyor through a controlled atmosphere treatment chamber, virtually free from combustion supporting air or other oxidizing agents, the feed material is caused to progressively thermally break down into its more basic constituents which flow out of the material treatment chamber in a continuous liquid and gaseous vapor stream. Negative pressure is applied upstream from the material treatment chamber to lead the liquid and gaseous vapor stream through successive processing stages of collection containers, condensers and gas scrubbers. The variable negative pressure is sufficient to maintain the pressure in the material treatment chamber within a range of slightly above ambient pressure.
Abstract: A high temperature reactor comprises a tube which defines a reactor chamber; means for introducing the inert fluid into the reactor tube to provide a protective blanket for the inside surface of the tube; means for introducing reactants into the chamber, the reactants being confined centrally within the chamber by the protective blanket; and, means, for generating high intensity radiant energy which is directed into the chamber to coincide with at least a portion of the path of the reactants.