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Conversion of hydrocarbon oils into motor fuels

Abstract

The abstract describes a process for producing lower boiling hydrocarbon motor fuels with a starting material of wide boiling range composed primarily of hydrocarbon oils boiling substantially above the boiling range of the desired product. Separate catalytic and pyrolytic conversion zones are simultaneously maintained in an interdependent relationship. Higher boiling constituents are separated from residual constituents by fractionation while desirable reaction conditions are maintained. All or at least a portion of the products from the catalytic and pyrolytic conversion zones are blended to yield the desired lower boiling hydrocarbons or motor fuels.
Authors:
Publication Date:
Nov 09, 1937
Product Type:
Patent
Report Number:
GB 505368
Reference Number:
EDB-81-060972
Subject:
02 PETROLEUM; AUTOMOTIVE FUELS; CHEMICAL REACTION YIELD; HYDROCARBONS; FRACTIONATION; PYROLYSIS; BOILING POINTS; CATALYSIS; CONVERSION; MIXING; OILS; CHEMICAL REACTIONS; DECOMPOSITION; FUELS; ORGANIC COMPOUNDS; OTHER ORGANIC COMPOUNDS; PHYSICAL PROPERTIES; SEPARATION PROCESSES; THERMOCHEMICAL PROCESSES; THERMODYNAMIC PROPERTIES; TRANSITION TEMPERATURE; YIELDS; 020400* - Petroleum- Processing
OSTI ID:
6513660
Country of Origin:
United Kingdom
Language:
English
Submitting Site:
TIC
Size:
Pages: v
Announcement Date:
May 13, 2001

Citation Formats

Not Available. Conversion of hydrocarbon oils into motor fuels. United Kingdom: N. p., 1937. Web.
Not Available. Conversion of hydrocarbon oils into motor fuels. United Kingdom.
Not Available. 1937. "Conversion of hydrocarbon oils into motor fuels." United Kingdom.
@misc{etde_6513660,
title = {Conversion of hydrocarbon oils into motor fuels}
author = {Not Available}
abstractNote = {The abstract describes a process for producing lower boiling hydrocarbon motor fuels with a starting material of wide boiling range composed primarily of hydrocarbon oils boiling substantially above the boiling range of the desired product. Separate catalytic and pyrolytic conversion zones are simultaneously maintained in an interdependent relationship. Higher boiling constituents are separated from residual constituents by fractionation while desirable reaction conditions are maintained. All or at least a portion of the products from the catalytic and pyrolytic conversion zones are blended to yield the desired lower boiling hydrocarbons or motor fuels.}
place = {United Kingdom}
year = {1937}
month = {Nov}
}