NL1029354C2 - Device for generating energy from fat. - Google Patents

Description

DEVICE FOR GENERATING FAT ENERGY

The present invention relates to a device for generating energy from fat.

The processing of cadavers and animal residual materials results in a fat fraction that can be used in part in the food industry and in the cosmetics industry. The unused part of this fat fraction is disposed of as residual material. Furthermore, a fat residue fraction is created in! the food industry where fats (from animal and vegetable) are processed or used, for example, in deep-frying treatments. The invention has for its object to use these fat fractions in the sense that energy is generated. This energy generation thus contributes to the improvement of the economic value of the processes from which these fat residues arise.

It is known to burn this fat fraction (which essentially has a fixed consistency at room temperature). However, the efficiency of this combustion is relatively low.

The present invention has for its object to use fat in the sense that energy can be generated thereby with a high efficiency.

This is achieved according to the invention with a device for generating energy from fat, comprising: i) a tank for fat provided with heating means; ii) a gas turbine provided with a compression unit, a combustion unit, and an expansion unit, 1 02935 4

2 I

the combustion unit being connected to J via a pump

the fat tank; and iii) a generator driven by the gas turbine.

Optimum efficiency is obtained by using a gas turbine in which the fat is burned in its combustion unit after it has been heated to a sufficiently low viscosity and has a sufficient flash point.

It has been found in experimental research that in particular in the expansion unit of the gas turbine substantially no deposition of combustion products takes place and that the gas turbine can therefore be operated for an extended period of time under an optimum load for generating energy. The expansion unit of the gas turbine can therefore have several expansion stages.

Furthermore, if preferably a fat line connecting the fat tank to the combustion unit is provided with torture means, the combustion in the combustion unit is further optimized in that any solid particles are removed from the heated liquid fat stream. These torture means preferably comprise a first filter for removing particles with a size of 200-500 µπ, more preferably of 300-400 µπ. The torture means preferably also comprise a second filter with a relatively low filter value of, for example, 30-80 µm. 25 for example 40-60 / an. By using two filters, the advantage is achieved that the finer filter closes less quickly.

If, in a fat line connecting the fat tank to the combustion unit, a three-way valve with a fat return line to the fat tank is preferably achieved, a fat cycle is created whereby the fat circulates in the fat lines and an optimum supply of fat to the combustion unit is ensured.

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In order to prevent coagulation of fat from occurring between the fat tank and the combustion unit in the grease lines, it is furthermore preferred that grease lines are provided with heating means, for example electronic tracing means. These electronic tracing means are arranged and arranged in such a way that the pipes and thus the contents of the pipes are kept at a constant temperature.

Under circumstances it is preferable to arrange the device 10 in such a way that not only fat is burned in the device but also an additional fuel. In this case it is therefore preferred that a fuel supply unit is connected to the combustion unit. This additional fuel may consist of gas, but diesel is preferred because of a higher flash point.

A flash point of an order of magnitude corresponding to that of melted heated fat. Therefore, it is preferred that the fuel supply unit includes a diesel supply unit.

In order to prevent that, when converting fat as fuel and the other fuel, these fuels end up in each other's pipe system, it is preferable that recoil means are provided in the fat pipe and fuel pipe. This also avoids fat coagulation due to contact with the relatively cool diesel fuel.

As indicated above with regard to the fat, it is also preferred that the other fuel is also included in a fuel cycle for optimum control of the supply and mixing of this fuel with the fat as fuel. Therefore, it is preferred that a three-way valve is included in the fuel line with a fuel return line to a fuel tank.

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An optimum combustion of each fuel and an optimum combustion during switching from one fuel to the other is realized if, furthermore, a control unit preferably controls the fat three-way valve and the fuel three-way valve.

The efficiency of the energy generation can be further improved if additional energy is extracted from the flue gas. In that sense, it is therefore preferred that a heat exchanger 10 is connected to a flue gas outlet from the gas turbine, for example for generating hot water and / or steam.

Mentioned and other features of the device for generating energy from fat are further explained below! | clarified on the basis of two exemplary embodiments which are only given by way of example without the invention being deemed to be limited thereto. 1

Reference is hereby made to the accompanying drawings, in which: figures 1 and 2 each show a schematic flow diagram of a device according to the invention for generating energy from fat.

Figure 1 shows a device 1 for generating energy from fat. The device 1 comprises a tank 3 provided with heating means 2. In the tank 3 animal fat 4 is present which is stirred with the aid of a stirrer 5. The fat has a viscosity of less than 4.5 when heated (140 ° C) mm2 / sec and has a combustion value that is between 30-40 MJ / kg.

The fat 4 from the tank 3 is supplied via a line 6 to a filter unit 7 which filters at a filter value of, for example, 300-400 .mu.m. The filtered fat 4 is then supplied to a three-way valve 10 via a pump 8 and a second filter unit 9 (filter value 40-60 µm). Via a return line 11 the heated fat is returned to the tank 4. Thus creates a fat cycle.

The three-way valve 10 is connected via a conduit 12 and a pre-heating unit 13 to a combustion unit 14 for burning the fat.

The combustion unit 14 forms part of a gas turbine 15.

The gas turbine 15 comprises a compression unit 16 with an inlet 17 for combustion air and an outlet 18 for compressed air. The compressed air is supplied to the combustion unit 14. The compressed flue gas from the combustion unit 14 is supplied via a line 19 to an expansion unit 20 where the flue gas is expanded and via a line 21 is supplied to a chimney 22.

The compression unit 16 and the expansion unit 20 are connected to a common axis of rotation 23 to which also a shaft 24 is connected which drives a generator 25. Thus, with the generator 25 energy is generated from the fat 4 with an increased efficiency.

Figure 2 shows another device 26 for generating energy from fat. Corresponding elements with the device according to figure 1 are indicated with the same reference numerals.

The device 26 additionally comprises the use of another fuel, in this case diesel. The diesel is supplied via a line 27 from a source and a pump 28 to a three-way valve 29 which is provided with a return line 30. Via a line 31 fuel can be supplied via a non-return valve 32 to a three-way piece 33 which via a line 34 enters is connected to the combustion unit 14.

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Heated fat 4 from the tank 3 is supplied via the line 12 and also passes a non-return valve 35 and j reaches the three-way piece 33 via a line 36. j

All pipes (pipes 6, 11, 12, 36 and 34) are provided with electronic tracing means 37, with which the fat in these pipes is at the desired temperature! (e.g. 120-180 ° C, preferably 140 ° C) can be kept.

The device 26 further comprises a control unit j 42 connected via signal lines 38, 39 and 40 to j respectively the three-way valves 10 and 29 and further to the combustion unit 14. With the aid of the control unit 42 the supply of diesel, heated fat and a mixture thereof can be controlled to the combustion unit 14. Thus, it is possible to start the device 26 using diesel as a fuel and then to switch to the burning of fat, while when the device is switched off this can again take place by switching back to diesel fuel. Moreover, it is possible to run on a mixture of both fat and diesel.

A heat exchanger 41 is furthermore arranged on the flue gas pipe 21 in order to extract energy from the flue gas in the pipe 21 in the form of hot water and / or steam.

102 9354

Claims (11)

A device for generating energy from fat, comprising: i) a tank for fat provided with heating means ii) a gas turbine provided with a compression unit, a combustion unit, and an expansion unit, wherein the combustion unit is via a pump connected to the fat tank; and iii) a generator driven by the gas turbine. Device as claimed in claim 1, wherein a grease line connecting the fat tank to the combustion unit is provided with filtering means. 3. Device as claimed in claim 2, wherein the filter means comprise a first filter with a filter value of 200-500 µm, for example 300-400 µm, and a second filter with a filter value of 30-80 µm, for example 40-60 µm. Device as claimed in claims 1-3, wherein a three-way valve with a fat return line to the fat tank is included in a fat line that connects the fat tank to the combustion unit 20. 5. Device as claimed in claims 1-4, wherein * grease lines are provided with heating means, for example electronic tracing means. 6. Device as claimed in claims 1-5, wherein a fuel supply unit is connected to the combustion unit. 1 02935 4 * • _ ~ r · / The device of claim 6, wherein the fuel supply unit comprises a diesel supply unit. 8. Device as claimed in claim 6 or 7, wherein recoil means are arranged in the grease line and fuel line. Device as claimed in claims 6-8, wherein a three-way valve is included in the fuel line with a fuel return line to a fuel tank. 10. Device as claimed in claims 6-9, wherein a control unit controls the fat three-way valve and the fuel three-way valve. 11. Device as claimed in claims 1-10, wherein a heat exchanger is connected to a flue gas outlet of the gas turbine, for instance for generating hot water and / or steam. A 1 02935 4!