JPS588715B2 - Oil extraction method from oil sands using flame jet - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a method for extracting oil from oil sands using a flame jet burner.

At a time when the world is facing an energy crisis and there is an urgent need to develop alternative fuels to the current oil production, the most promising method of oil extraction in the future is one that has vast reserves worldwide. This involves extracting oil from confirmed oil sands.

However, the methods currently being tried are extremely incomplete both technically and economically.

The purpose of this invention is to provide a technology for extracting and recovering oil from oil sands using a supersonic flame jet in an extremely simple manner.

This invention is a new technical system that has a completely different technical concept from conventional oil extraction technologies.

An embodiment of the present invention will be described below with reference to the drawings.

The mined oil sand A is supplied into the hopper 4 via the conveyor 5.

A fixed amount of the oil sand A supplied into the hopper 4 is transported into the processing tank 2 by the screw conveyor 3.

In this case, the oil sand A in the processing tank 2 is supplied from the flame jet burner 1 at a high temperature of about 1100°C and a pressure of 5 to 50°C.
A supersonic flame jet of 6.5 atmospheres is injected.

The maximum speed of the ejected flame jet is 1200 m/s.

The oil and water contained in the oil sand are separated and vaporized by the kinetic energy and thermal energy of the flame jet, and these are discharged from the duct 6 along with the dry sand, mud, and burner exhaust gas. , Cyclone 7
to go into.

This cyclone 7 collects sand, mud, and other solid substances, and conveys them by a conveyor 12.

The oil and moisture mentioned above are transferred from the cyclone to duct 8.
via the condenser 9, where it is condensed and liquefied.
10 oil and 11 water are separately taken out.

The exhaust gas from which oil content 10 and water content 11 have been separated enters a desulfurization device 14 to remove sulfur content, and after being desulfurized, is released into the atmosphere.

13 is a duct.

Note that various other methods can be considered for the continuous supply of oil sand to the processing tank 2, and the one shown in FIG. 1 is one example thereof.

In addition, in order to improve the collection of solids, it is preferable to install multiple cyclones, and if rocks etc. are mixed in the oil sand, between the processing tank 2 and the cyclone 7. It is preferable to install a suitable classifier or the like.

Solid matter such as sand and mud taken out from cyclone 7 is still at a fairly high temperature even after being taken out, so conveyor 1
2. It is necessary to choose a product made of material that can handle this.

Furthermore, the processing tank 2, cyclone 7, and duct 6 must be completely heat-insulated to prevent heat radiation.

The flame jet burner described above injects a supersonic flame jet burner at a high temperature of about 5 to 6.5 atmospheres by combustion of kerosene or heavy oil fuel and air. Tank (not shown)
It is pumped in at a constant pressure and constant flow rate.

The feature of the method according to the present invention is that the apparatus is extremely simple, and as is clear from FIG. The greatest advantage of this invention is that the oil 10 and water 11 can be easily vaporized and separated from the oil sand A by simply injecting the flame jet burner 1 into the oil sand A.

When inserting a flame jet burner into a processing tank containing oil sand, or when discontinuing operation and pulling out a flame jet burner to extinguish the flame jet burner, use an inert gas such as CO2 or N2 gas in the processing tank. Injecting gas does not pose an explosion risk.

Furthermore, during the flame jet burner injection in the processing tank, the flame jet does not contain oxygen, so it is extremely safe even when injected into the oil sand, and there is no need to specially inject inert gas. It is economical and has the characteristics of being able to extract oil with high efficiency.

[Brief explanation of the drawing]

FIG. 1 is a schematic diagram of an embodiment according to the invention. A... Oil sand, 1... Flame jet burner, 2... Processing tank, 3...
Screw conveyor, 4...hopper, 5...
...conveyor, 6...dak, 7...
Cyclone, 8...Duct, 9...Condenser, 10...Oil, 11...Moisture, 12...Conveyor, 13... ... Duct, 14 ... Desulfurization equipment.

Claims (1)

[Claims] 1. Oil sand is continuously supplied into a processing tank via a conveyor etc., and a flame jet is injected into the oil sand in the processing tank to produce vaporized and separated oil and water, and solid matter from which oil and water have been separated. Furthermore, the exhaust gas from the flame jet burner is guided through a duct to a suitable cyclone, where the solid components are collected, and the oil, moisture, and exhaust gas are further guided to a condenser, where the oil and moisture are collected separately. A method of extracting oil from oil sands using a flame jet.