SU989233A1 - Boiler unit - Google Patents

Description

The invention relates to energy and can be used in energy units when they work on water-ι fuel oil emulsion.

It is known that one of the radical ways to reduce the content of ⁵ nitrogen oxides in the combustion products obtained by burning fuel oil is to burn water-oil emulsions of £ 1.

A boiler plant is known, containing a ₁₀ convection shaft connected to a chimney, a firebox with burners connected to an air duct equipped with a draft fan and heater, and a flue gas recirculation pipe ₁₅ with input and output sections, the last of which is connected to the duct [.2 ^.

The disadvantages of the known installation are low profitability, as well as the 20 complexity of the transfer to the combustion of a water-emulsion emulsion.

Also known is a boiler installation containing a boiler furnace with a gas duct and a burner connected to an air duct equipped with an air heater with a heating line of £ 3j.

The disadvantage of this installation is the low efficiency due to the fact that condensed water in the heater is removed from the cycle, which leads to a deterioration in the efficiency of the cycle.

Nel inventions - improving work efficiency by vavavryattsvchchiya in a cycle of emulsifying water during operation of the boiler nd oil-water emulsion.

This goal is achieved by the fact that the gas duct of the boiler is equipped with a contact condenser, the water path of which is connected at the outlet to the emulsifier and connected to the heating line of the air heater with the formation of a closed loop.

In addition, the air heater is made contact.

The drawing shows a diagram of the proposed installation.

s 9892;

The circuit contains a furnace 1 of a boiler with a gas duct 2. and a burner 3 connected to an air duct 4 equipped with an air heater 5 with a heating line 6. The gas duct 2 of the boiler is equipped with a contact condenser 7, the water path 8 of which is connected at the outlet to the emulsifier 9 and is connected to heating line 6 of the heater_5 with the formation of a closed circuit 10. In addition, air heating, the heater B can be made contact. ''

Installation works as follows.

The combustion products leaving the furnace 1 upon contact with chilled water in the contact condenser 7 cool down and the water vapor contained in them condenses. Part of the water from the condenser 7 is fed along the path 8 to the emulsifier 9, where the preheated fuel oil enters. From the emulsifier ₂₀ 9 the oil-water emulsion enters the burner 3 and burns in the furnace 1. The rest of the water from the condenser 7 is supplied to the air heater 5, where do you cool it? blowing air, and then along the circuit. 10 is again fed into the contact condenser 7. In this case, the air in the air heater is heated.

The amount of condensate required to maintain the required ratio of ₃₀ fuel oil and water in a water-oil emulsion is provided by the flow ratio regulator 11 with the help of a regulating body (valve) 12 depending on the signals from the sensors 13 and 14 of the flow of oil and water. With a change in the flow rate of water taken from the contact capacitor 7, the level in it changes and a corresponding impulse arrives from the level sensor 15 to the flow controller 16. With increasing water contact urbvnya capacitor ⁴⁰ Satoru 7 kdmayadu controller 16 gives to the control body (three-way valve) 17 to reduce the flow of water entering the water distributor heater 5 with a corresponding increase in the proportion of water flowing into it. This leads to an increase in the temperature of the water entering the contact capacitor.

4 and a corresponding reduction in the amount of condensate released. Such a control system allows you to maintain a constant water level in the contact capacitor 7, regardless of possible fluctuations in the flow rate of water for the preparation of a water-oil emulsion.

If necessary, for example, an ammonia solution can be used to neutralize the water in the contact capacitor. The resulting solid phase is removed from the contact capacitor.

Thus, the use of a boiler plant of the proposed design allows to increase the efficiency of work! by returning emulsifying water to the cycle when the boiler is operating on a water-oil emulsion.

Claims (2)

(54) BOILER INSTALLATION. : -one. The invention relates to the power industry and can be used in power units in their work on the vrdoch fuel oil emulsion. It is known that one of the most radical ways to reduce the nitrogen oxides in combustion products obtained by burning fuel oil is burning water-oil emulsions G 11 A well-known boiler plant containing a convective shaft connected by a JE pipe, a furnace with burners connected to the duct supplying A heating device and a flue gas recirculation pipe with an inlet and outlet part, the last of which is connected to the air duct, 2. The disadvantages of the known installation in low prices are low efficiency, and the complexity of converting to the combustion of a water emulsion is also low. A boiler installation is also known, containing a boiler furnace with a flue and a burner connected to an air duct fitted with a hot air heater with a heating line h. The disadvantage of this fix is the low operating efficiency due to the fact that the water condensed in the heater is taken out of the cycle, which leads to a disheartening of the HF cycle. The purpose of the invention is to increase the efficiency of work by returning the emulsion water into the process of emulsifying water during the operation of the boiler of water-and-oil mixtures. This goal is achieved by the fact that the boiler duct is equipped with a contact condenser, the water path of which is connected at the outlet to the emulsifier and the solenoid with the heating line to form a closed circuit. In addition, the stove is made contact. The drawing shows the scheme of the proposed installation. The scheme contains a furnace 1 of a boiler with a hygiener 2. and a burner 3 connected to duct 4, equipped with an ear heater 5 with a heating line 6, a gas duct 2 of the boiler cHa & iceH with a condenser 7, a water path .6 KOj-opui d is connected at the outlet to the emulsifier 9 and connected to the heating line 6, the heater 5, with the formation of a closed circuit 10. In addition, the heater B can be made contact, the installation works as follows: Combustion products leaving furnace 1 or KOHTajCTHposaifflH cooled with water in a contact condenser 7 o lalodayuts contained therein and steam ko1adensiruets Part of the water from the con capacitor 7 is supplied to path 8 SMj-JibraTop 9 1suda supplied and preliminarily iodogroty oil. From the emulsifier 9, the water-oil emulsion enters the burner 3 and is burned in the furnace 1. The rest of the water is fed to the sensor. 7 is served in oven 5, where you cool the blower with air, and then along the contour. You are again supplied to the contact capacitor 7. Air is heated in the air preheater. The quality of condensate needed to maintain the required ratio of aluminum and water in water-oil emulsions is provided by a regulator 11 of the ratio of flow rates using a regulator (SS) 12 depending on the signals of the sensors 13 and 14 of the mass flow rate and water. With a change in the flow rate of water withdrawn from the contacts of the condenser 7, the level in it changes and a corresponding impulse is received from the level sensor 15 to the flow controller 16. When the water in the contact chamber 7 is adjusted, regulator 16 gives a command to the regulating body (three-way valve) 17 to reduce the flow of water to the water distributor of the air heater 5 with a corresponding increase in the proportion of water entering it. the input to the contact capacitor 7 and the corresponding reduction in the amount of the separated 1b1cgcc condensate. Such an adjustment system allows the constant level of water in contact capacitor 7 to be pushed, regardless of possible fluctuations of water consumption for the preparation of a water-air emulsion. If necessary, for the neutralization of water in a contact condenser, for example, an ammonia solution can be applied. The solid phase thus formed is sped from the contact capacitor. Thus, the use of the boiler plant of the proposed design allows the efficiency of the operation to be increased by returning emulsifying water to the cycle when the boiler is operating on a water-oil emulsion. Claim 1. A boiler installation containing a boiler furnace with a flue and a burner connected to an air duct fitted with an air heater with heat and water, which is consistent with working efficiency by returning emulsified water to the cycle while the boiler is running on water-oil emulsine The boiler flue gas duct is equipped with a contact condenser, the water path of which is connected at the outlet to the emulsifier and is connected to the heating line of the air heater with the formation of a closed loop. 2. Installation but n, 1, o tl and h and y and the fact that the air heating is made contact. Sources of information taken into account in examination 1, Tuv I, A, Burning of water-fueled fuel oil in ship boilers. L ,, Shipbuilding, 1968, p. 5-12, 2, US Patent No. 3781162, kp, f 22 V 33/00, publ. 1973, 3, Copyright svdedelstvo USSR f 737694, class, p 22 V 33/00, 1977, flf odyKmbi Dutye Viy ds Naeut Sh tt.-.- V 5a555gS V Temonosi / Pell