RU199370U1 - Boiler unit - Google Patents

Abstract

The utility model relates to marine technical means for preventing oil pollution of the environment and is designed to increase the efficiency of utilization of oily water. water installed in the gas duct, in addition, contains a boiler fuel system, the outlet of which is connected to the inlet of the fuel nozzle, and also includes a series-connected system of oily water and a switch, as well as an adjustable valve, while the first outlet of the switch is connected to the inlet of the oil-containing water nozzle of the boiler , and the second outlet is connected to an adjustable valve, in addition, it contains an oily water heater, the inlet of which is connected to the outlet of the adjustable valve, and the outlet is connected to the inlet of an additional oil-containing water nozzle.

Description

The utility model refers to the ship's technical means for preventing oil pollution of the environment and is designed to improve the efficiency of the utilization of oily water.

A useful model of a ship device for the purification of oily waters is known, containing sedimentation tanks, coarse and fine filters and a control system (see, for example, the Handbook of a ship mechanic on heat engineering / I.F. Koshelev, A.P. Pimoshenko, G.A. Popov, V.Ya. Tarasov. - L: Shipbuilding, 1987, - 480 p .: ill. P. 412-413). Oily water from the holding tank is discharged into slop tanks. In the process of settling, oil products are separated from water, they rise up, and the water sinks into the lower part of the tank, from where it is fed to coarse and fine filters and then to the control system. At an acceptable concentration of oil products in the treated water, it can be discharged overboard, and otherwise it is further processed.

This utility model has the following disadvantages.

The oily water purification process is rather slow, and it is difficult to achieve a low concentration of oil products in water. Therefore, such a system for the purification of oily water is mainly used to separate the bulk of oil products from their composition, for the purpose of their further use, and water with residues of oil products is usually delivered to the shore or special ships. And this requires certain material and time costs.

A useful model of a device for the purification of oily water is known in the form of oil-water separators of the type SK, SKM, USKG, separators of the type OV, etc. (see, for example, the Handbook of ship mechanic on heat engineering / I.F.Koshelev, A.P. Pimoshenko, G A. Popov, V.Ya. Tarasov. - L: Shipbuilding, 1987, - 480 p.: P. 414-419). Such separation plants are expensive, occupy a significant place in the engine room, and require qualified maintenance and repair. Therefore, their installation is not always advisable.

The closest in technical essence and the achieved result is a utility model of a boiler plant, which includes a boiler with a fuel nozzle, a nozzle of oily water, and a gas duct, as well as a boiler fuel system containing a series-connected fuel type switch, a fuel pump, a coarse filter, a fuel heater , a fine filter, and the output of the fine filter is connected to the inlet of the fuel injector, as well as a series-connected tank of oil residues and a system for preparing a water-fuel emulsion, a supply tank, while one input of the fuel type switch is connected to a supply tank, and the other to the output of the system for preparing a water-fuel emulsions, the fuel system of the boiler also includes a system of oily water, including a series-connected cistern of oily water, a coarse filter, a pump, a fine filter, the output of which is the outlet of the oily water system, a gas analyzer, in the stroke of which is connected to the outlet of the boiler flue, as well as a series-connected adjustable valve and an additional nozzle of oily water installed in the flue, and a switch, the switch input being connected to the outlet of the oily water system, and the first outlet to the inlet of the oil-containing water nozzle of the boiler, and the second outlet connected to the inlet of the variable valve. (See patent for utility model No. 148625 "Boiler plant" according to application No. 2014127763 dated 07/08/2014. Authors Chichurin A.G., Sadekov M.Kh., Shuraev O.P., Borisov N.N.).

In this utility model, filtered oily water with a low concentration of oil products is fed through a controlled valve to the boiler flue through an additional oil-containing water nozzle. The sprayed oily water together with the boiler combustion products go through the gas duct. In this case, oily water is heated by combustion products and water evaporates from their composition. Since the combustion products at the boiler outlet have a rather high temperature (350-400 ° C), the process of evaporation and subsequent afterburning of oil residues from the composition of oily waters also occurs in the gas duct. The composition of the gases after the gas duct will depend on the content of oil products in the oily waters, their composition and the amount of oily waters supplied to the additional oil-containing water nozzle, and is controlled by a gas analyzer. According to the control results obtained with the help of a gas analyzer, the supply of oily water to an additional oil-containing water nozzle changes. As a result, there is almost complete utilization of oily water.

As follows from what has been said in this utility model, one of the stages in the process of utilizing oily waters is the procedure for heating them with combustion products before evaporation, that is, boiling. Obviously, the less energy will be spent on heating oily water in the gas duct, the more oily water can be utilized in this utility model.

The objective of the proposed utility model is to increase the efficiency of the utilization of oily water by the combustion products of the boiler by heating them before being fed into the gas duct.

The task of the utility model is achieved by the fact that the known boiler unit, which includes a boiler with a fuel nozzle, a nozzle of oily water, a gas duct and a gas analyzer, the inlet of which is connected to the outlet of the boiler flue, as well as an additional nozzle of oily water installed in the flue, also contains the fuel system of the boiler , the outlet of which is connected to the inlet of the fuel nozzle, and also includes a series-connected system of oily water and a switch, as well as an adjustable valve, while the first outlet of the switch is connected to the inlet of the boiler oily water nozzle, and the second outlet is connected to an adjustable valve, an oil-containing heater is additionally introduced water, the inlet of which is connected to the outlet of the adjustable valve, and the outlet is connected to the inlet of the additional nozzle of oily water

The essence of the claimed utility model is as follows.

In a known utility model of a boiler plant, filtered oily waters with a low concentration of oil products are fed through an adjustable valve into the gas duct through an additional oil-containing water nozzle, where they are sprayed. The sprayed oily water together with the boiler combustion products go through the gas duct. In this case, oil-containing water is heated by combustion products and water evaporates from their composition. Since the combustion products at the boiler outlet have a sufficiently high temperature (300-400 ° C), the process of evaporation and subsequent afterburning of oil residues from the composition of oily waters also occurs in the boiler gas duct.

In this utility model, one of the stages in the process of utilizing oily waters is the procedure for heating them with combustion products before the start of evaporation, that is, boiling. Obviously, the less energy will be spent on heating oily water in the gas duct, the more oily water can be utilized in this utility model.

In the claimed utility model of the boiler unit, oily waters with a low concentration of oil products are heated to a temperature close to the boiling point of water (90-99 ° C) before being fed into the boiler gas duct. As a result, the utilized oily water, after being sprayed in the boiler gas duct, almost immediately undergoes the evaporation process, that is, there is no energy consumption from the flow of boiler combustion products in the gas duct to heat the oily water to boiling. Therefore, it becomes possible to increase the amount of oily water supplied to the gas duct for utilization, that is, the efficiency of oily water utilization increases.

Thus, the claimed utility model has a new property, which consists in the supply of heated oily waters with a low concentration of petroleum products in a certain proportion to the combustion products of the boiler, where, due to their heat, evaporation (practically without heating) and afterburning of oily water occurs, which does not coincide with the properties , manifested by distinctive features in the known solutions and not equal to the sum of these properties, ensuring the achievement of a new positive effect - increasing the efficiency of utilization of oily waters with a low concentration of oil products.

Brief Description of Drawings

The figure shows a diagram of a boiler unit.

The boiler unit includes a boiler 1 with a fuel nozzle 2, a nozzle of oily water 3, a gas duct 4 and a gas analyzer 5, the inlet of which is connected to the outlet of the gas duct 4 of the boiler 1, as well as an additional nozzle of oily water 6 installed in the gas duct 4, and also contains the fuel system of the boiler 7 , the output of which is connected to the input of the fuel nozzle 2, and also includes a series-connected system of oily water 8 and switch 9, as well as an adjustable valve 10, while the first output of the switch 9 is connected to the input of the oily water nozzle 3 of the boiler 1, and the second output is connected to adjustable valve 10, in addition, contains a heater for oily water 11, the inlet of which is connected to the outlet of the adjustable valve 10, and the outlet is connected to the inlet of an additional nozzle of oily water 6.

Implementation of the utility model

The operation of the boiler unit for the utilization of oily water begins after the boiler 1 enters the normal operating mode.

In the known utility model of a boiler plant, oily water from the oily water system 8 through an adjustable valve 10 is supplied to the gas duct 4 through an additional oil-containing water nozzle 6, where they are sprayed. The sprayed oily water, together with the combustion products of the boiler, go through the gas duct 4. In this case, the oily water is heated by the combustion products and the water evaporates from their composition. Since the combustion products at the outlet of the boiler have a sufficiently high temperature (300-400 ° C), then in the gas duct 4 of the boiler 1, the process of evaporation and subsequent afterburning of oil residues from the composition of oily waters also occurs.

The heating of oily water by combustion products prior to the beginning of evaporation, i.e. boiling, requires a certain amount of energy taken from the combustion products of the fuel in the boiler. Obviously, the less energy will be spent on heating oily water in the gas duct, the more oily water can be utilized in this utility model.

In the claimed utility model of the boiler unit, oily waters with a low concentration of oil products, before being fed into the gas duct 4 of the boiler 1, are heated in an oily water heater 11 to a temperature close to the boiling point of water (90-99 ° C). As a result, the utilized oily water, after being sprayed in the gas duct 4 of the boiler 1, almost immediately undergoes the evaporation process, that is, there is no energy consumption from the flow of the boiler combustion products in the gas duct to heat the oily water to boiling. Therefore, it becomes possible to increase the amount of oily water supplied to the gas duct 4 for disposal, that is, the efficiency of oily water utilization increases.

Thus, the claimed utility model has a new property, which consists in the supply of heated oily waters with a low concentration of petroleum products in a certain proportion to the combustion products of the boiler, where, due to their heat, evaporation (practically without heating) and afterburning of oily water occurs, which does not coincide with the properties , manifested by distinctive features in the known solutions and not equal to the sum of these properties, ensuring the achievement of a new positive effect - increasing the efficiency of utilization of oily waters.

Claims (1)

A boiler unit including a boiler with a fuel nozzle, an oily water nozzle, a gas flue and a gas analyzer, the inlet of which is connected to the outlet of the boiler flue, as well as an additional oil-containing water nozzle installed in the flue, in addition, contains a boiler fuel system, the outlet of which is connected to the inlet of the fuel injector , and also includes a series-connected system of oily water and a switch, as well as an adjustable valve, while the first output of the switch is connected to the inlet of the nozzle of oily water of the boiler, and the second output is connected to an adjustable valve, characterized in that an oily water heater is additionally introduced into the boiler, the inlet of which is connected to the outlet of the adjustable valve, and the outlet is connected to the inlet of the additional oil-containing water nozzle.

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