This invention is concerned with a simple, low-cost system for de-salting fuel oil, particularly biodiesel, supplied to gas turbine engines, particularly marine gas turbine engines of the type used in propulsion systems for ships.
In response to rising costs and environmental concerns associated with traditional fossil fuels, fuel-dependent industries are turning to biodiesel to power gas turbine engines. In the implementation of a biodiesel program, it became apparent that salinity found in biodiesel is a significant problem. Salinity reduces the lifespan of gas turbine engines. The normal lifespan of a gas turbine engine burning fuel with an optimal level of salinity of less than 0.1 ppm is 25,000 hours. When the salinity is increased to 0.2 ppm, the maximum concentration for commercial use, the lifespan is reduced by 50%, and at 0.7 ppm there is a 90% reduction in lifespan.
Early in the program of using biodiesel to power marine gas turbine engines, it was discovered that the salinity level of fuel intended for use was in the range of 5-11.5 ppm, which is unacceptable. Such high salinity content renders the fuel unsuitable for use by gas turbine engines.
While processes exist in the prior art for de-salting fuel oil, they are expensive and impractical for use in de-salting fuel to power marine gas turbine engines. Such engines burning 100% biodiesel (a 99.9% biodiesel, 0.1% palm oil blend mix) require an optimal level of salinity of less than 0.1 ppm. The present invention provides a biodiesel fuel having the required characteristics.
The present invention provides a method and an apparatus for de-salting fuel oil, particularly fuel oil used to power marine gas turbine engines. The invention uses an in-line section of pipe of predetermined length that is part of a piping system for supplying de-salted fuel to a gas turbine. Salt-containing fuel oil and water are supplied to the section of pipe in such a manner that a water-fuel oil emulsion is created in the section of pipe and such that the water extracts salt from the salt-containing fuel. De-salted fuel and salt-containing water are passed to a separator, more particularly a centrifugal separator. The construction of the section of pipe is such that turbulent flow is created therein. The water is injected into the section of pipe as a fine spray, using a nozzle, more particularly a sprinkler head. The construction of the section of pipe is such that the salt-containing fuel oil is caused to swirl before it encounters the fine spray of water injected into the section of pipe. Mixing pins in the section of pipe promote turbulent flow in the emulsion passed from the section of pipe to the separator.
The invention will be further described in conjunction with the accompanying drawings, which illustrate preferred (best mode) embodiments, and wherein:
The present invention is an in-line system using a simple static emulsifier to thoroughly mix salt-containing fuel oil (e.g., biodiesel) with water, thereby to draw the salt from the fuel into the water preferentially, and then separating the de-salted fuel from the salt-containing water. This process can be carried out repeatedly in a closed cycle until the desired salinity level is attained.
An essential component of the invention is the static emulsifier 22, which, in the embodiment, is a section of pipe 32 (e.g., 4″ diameter) into which fuel is directed by a three-blade “propeller” 34 made of bent flat steel. The propeller (which does not rotate) causes the incoming fuel to swirl as it enters the emulsifier.
Following the propeller are water-mist nozzles 36, oriented as shown, to which technical (distilled) water from a high pressure washing machine is supplied. The nozzles are sprinkler heads of a type used in fire-control systems aboard ships. The fire control nozzle is designed to give as fine a spray as possible (in order to put out a fire in a compartment). Following the sprinkler heads are a plurality (e.g., three) of mixing pins 38 oriented at different angles across the pipe of the emulsifier to assist in creating turbulent flow that is important to the process of the invention.
In the diagram of
In a working embodiment of the invention, water flow was at the rate of 2.4 liters per minute (3.7 m3 over 24 hours) at a water temperature of about 30° C. The temperature of the biodiesel fuel at the point where the water was injected was about 58° C. The use of two fine-spray nozzles together with the swirl-causing propeller and the mixing pins creates an emulsion required to remove salt (e.g., sodium and potassium chloride) from fuel oil supplied at a flow rate of 5 m3/hr, for example.
While preferred embodiments of the invention have been shown and described, it will be apparent that modifications can be made without departing from the principles and spirit of the invention, the scope of which is defined in the following claims.
This application is a continuation of International Patent Application No. PCT/US2008/083713 filed Nov. 16, 2008. This application also claims the benefit of provisional application No. 60/996,430 filed Nov. 16, 2007, incorporated herein by reference.
Number | Date | Country | |
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Parent | PCT/US2008/083713 | Nov 2008 | US |
Child | 12779385 | US |