UA45892C2 - Method for liquid boiler fuel preparing AND AN APPLIANCE FOR PERFORMING THEREOF - Google Patents

Abstract

Method for liquid boiler fuel preparing, in which to the commercial mazut fractions of oil products a liquid addition on the basis of oil products are added, after that the mixture obtained undergoes hydrodynamic cavitation processing. At that, as the liquid addition the slime of non-conditional oil products and water is used, before adding it to commercial mazut fractions it undergoes a numerical hydrodynamic processing. Appliance for performing the method has a tank for the commercial mazut fractions of oil products and a tank for liquid addition on the basis of oil products, pumps for the commercial mazut fractions of oil products and liquid addition feeding, and two hydrodynamic cavitation mixers (HCM), at that the tank for the commercial mazut fractions of oil products, through the pump of the commercial mazut fractions of oil products feeding, is connected to the first HCM, and the tank for the liquid addition, through the pump of the liquid addition supply, is connected to the inlet of the pump for the commercial mazut fractions of oil products feeding. At that, the inlet of the second HCM is connected to the outlet of the pump for the liquid addition feeding, and the outlet of the second HCM – to the tank for the liquid addition, and with the inlet or the outlet of the pump for the commercial mazut fractions of oil products feeding.

Description

in this case, the slurry is injected in the amount of mu - UabMe 7 mm) - Me(00 - Mio)

Mu that UM where Msh, Mm and Mv - volume consumption of sludge, commercial fuel oil fractions of petroleum products and water, m3/h; Msh MUm and

Me - moisture content of sludge, commercial fuel oil fractions of petroleum products and obtained fuel, 95 vol.

The task is also solved by the fact that in the device for obtaining liquid boiler fuel, which contains a capacity of commercial fuel oil fractions of petroleum products and a capacity of liquid admixture based on petroleum products, pumps for supplying commercial fuel oil fractions of petroleum products and liquid admixture and two hydrodynamic cavitation mixers (HKZ), and the capacity of commercial fuel oil fractions of petroleum products through the pump of supply of commercial fuel oil fractions of petroleum products is connected to the first GKZ, and the capacity of liquid admixture through the pump of supply of liquid admixture is connected to the input of the pump of supply of commercial fuel oil fractions of petroleum products, according to the proposed invention, the new thing is that the input of the second GKZ is connected to the output liquid admixture supply pump, and the output of the second GKZ - with the capacity of liquid admixture, as well as the input or output of the pump for supplying commercial fuel oil fractions of petroleum products.

The device may contain a water tank connected through the water supply pump to the input of the pump for the supply of commercial fuel oil fractions of petroleum products and/or the input of the pump for the supply of liquid admixture.

In the joint repeated hydrodynamic cavitation treatment of sludge components, a finely dispersed liquid mechanical mixture of mutually insoluble liquids is obtained - an emulsion. The peculiarity of such a system is that its boiling point does not exceed the boiling point of its low-boiling component at a given pressure (in this case, water). When the formed emulsion "unconditioned petroleum products - water" is introduced into the flow of commercial fuel oil fractions of petroleum products and subsequent joint hydrodynamic cavitation treatment of the mixture of all fuel components, cavitation bubbles are formed, filled with vapors of both water and unconditioned petroleum products, and not mainly water as in the prototype (hence, pre-mixed substandard petroleum products and water during depressurization during hydrodynamic cavitation treatment boil together, significantly intensifying this treatment). At the same time, not only globules (clots) of heavy oil products are destroyed more intensively, but also all its components are much more efficiently crushed and distributed in the common volume of the prepared fuel. In the case of an insufficient proportion of water in the slurry, it can be added to the prepared mixture additionally (in a separate stream).

It should be noted that the proposed solution concerns not only the method of preparing liquid boiler fuel, but also the device for its implementation.

The essence of the invention is explained by the drawing, which shows the schematic diagram of the device for preparing liquid boiler fuel /fig. 17.

The device for preparing liquid boiler fuel contains containers 1 for commercial fuel oil fractions of petroleum products, liquid admixture based on petroleum products (sludge from substandard petroleum products and water) 2 and water (oily water) C, respectively, pump 4 for supplying commercial fuel oil fractions for petroleum products and pump 5 for supplying liquid impurities installed at the outlets of containers 1 and 2, respectively. The first hydrodynamic cavitation mixer (HKZ) 6 is installed at the outlet of pump 4 for supplying commercial fuel oil fractions of petroleum products, and the second HKZ 7 is installed between the outlet of pump 5 for supplying liquid impurities and the inlet or outlet of pump 4 for supplying commercial fuel oil fractions of petroleum products. In addition, the output of the second GKZ 7 is connected to the container 2 of the liquid admixture. At the same time, the tank C for water is connected to the inlet of the pump 4 for the supply of commercial fuel oil fractions of petroleum products and/or the inlet of the pump 5 for the supply of liquid admixture.

We will consider the implementation of the method on the example of the proposed device, which works in this way.

A liquid admixture in the form of sludge based on substandard petroleum products and water from tank 2 with the help of pump 5 enters the second GKZ 7. Due to the fact that sludge is a complex heterogeneous system in terms of composition and structure, it is advisable to subject it to repeated hydrodynamic cavitation treatment, for which at valve 8 is opened to the working pump 5 and valve 9 is closed, as a result of which a circulation movement of sludge is formed through pump 5, the second GKZ 7, tank 2, and as a result of multiple hydrodynamic cavitation treatment, an emulsion "non-standard oil products - water" is formed. Heated commercial fuel oil fractions of petroleum products from tank 1 are supplied by pump 4 to the GKZ 6. After processing the sludge, valve 9 is opened and valve 8 is closed, after which pump 4 begins to suck up the emulsion "petroleum products - water" formed in the second GKZ 7 (in the case of installing a second GKZ 7 between the output of pump 5 for the supply of liquid admixture and the input of pump 4 for the supply of marketable fuel oil fractions of petroleum products) or the specified emulsion is fed by pump 5 into the pressure line of pump 4 (in the case of installation of the GKZ 7 between the output of pump 5 and the output of pump 4). As a result of joint hydrodynamic cavitation treatment of all fuel components in the first GKZ, liquid boiler fuel is obtained, which is characterized by high uniformity and suitability for long-term storage without significant changes in operational properties.

When installing GKZ 7 between the output of pump 5 and the inlet of pump 4, the efficiency of fuel processing increases due to the passage of all its components not only by GKZ 6, but also by pump 4.

If it is necessary to add water to the received fuel, it flows from tank C to the inlet of pump 4 and/or to the inlet of pump 5.

During laboratory and industrial tests, the effectiveness of fuel preparation of various compositions was studied.

Example 1 (prototype). Components of liquid boiler fuel: commercial fuel oil fractions of petroleum products with a conditional viscosity of 17" VU at 80"С, a flash point of 220"С, moisture - 0.5 9o vol.; a liquid admixture based on petroleum products - sludge from non-standard petroleum products and water ( sludge composition - 50 95 vol oil products and 50 95 vol water, flash point 72 76.

The sequence of fuel production: slurry is added to commercial fuel oil fractions of petroleum products, after which hydrodynamic cavitation mixing of all components is carried out at 60 "C.

Example 2. Liquid fuel components are the same as in example 1.

The sequence of fuel production: slurry is added to commercial fuel oil fractions of petroleum products, which is subjected to disposable hydrodynamic equipment, after which joint hydrodynamic cavitation mixing of all components is carried out at 61"C.

Example 3. Liquid fuel components are the same as in example 1.

The sequence of fuel production: the sludge is subjected to repeated hydrodynamic cavitation treatment (during its circulatory movement according to the circuit "tank 2 - pump 5 - second GKZ 7 - tank 2), after which hydrodynamic cavitation mixing of all components is carried out at 61.5" C.

Example 4. Components of liquid fuel are the same as in example 1 and additionally water.

The sequence of obtaining fuel is the same as in example C (at the same time, water is supplied to the inlet of the pump for supplying commercial fuel oil fractions of petroleum products). The temperature of mixing all components is 60"C.

Table

For example, Temperature Content of components in fuel, 95 vol. Conditional Mixing temperature, "C viscosity, "VU| flash, "C commercial fuel oil water fraction of petroleum products 1 (prototype) 60.0 99.0 1.0 - 16.5 150 2 61.0 99.0 1.0 - 16.3 152

From 61.5 99.0 1.0 - 15.3 163 4 60.0 98.5 1.0 0.5 15.5 166

As can be seen from the table, the characteristics of the fuel obtained on the basis of commercial fuel oil fractions of petroleum products (example 1) and obtained according to the proposed method are improved, which indicates that the proposed invention allows for the effective disposal of substandard petroleum products in the form of sludge during the preparation of liquid boiler fuel and to reduce the consumption of commercial fuel oil fractions of petroleum products when preparing fuel without reducing the operational characteristics of this fuel. 1

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