CS257500B1 - Device for using waste heat of compressed air for heating liquids - Google Patents

Abstract

The device for using waste heat of compressed air for heating liquids solves the problem of increasing the temperature level of waste heat for heating liquids while ensuring the required cooling of compressed air. The essence of the solution lies in the fact that the cooling circuit with the cooling tower is divided into two parallel circuits by means of a dividing control two-way valve, one of which contains an air cooler and the other an air aftercooler. In the circuit with the air cooler, storage exchangers with bypasses are connected in parallel by means of controlling two-way valves. The controlling two-way valves are connected to the temperature sensors of the storage exchangers. . The dividing control two-way valve is connected to the temperature sensor at the outlet of the air cooler. The cooling tower fan is connected to the temperature sensor at the outlet of the compressed air from the air aftercooler.

Description

BACKGROUND OF THE INVENTION The invention relates to an apparatus for utilizing waste heat to cool compressed air downstream of a compressor for heating liquids.

The solution of the device for utilizing the waste heat of compressed air downstream of the compressor consists in dividing the air cooler into individual sections in their serial connection. Individual sections, respectively. heat exchanger sections with separate circuits according to the required temperature level. Such a solution can be used if the requirement of high air cooling and a high temperature level of waste heat is simultaneously met.

The aforementioned drawbacks are eliminated by the compressed air waste heat recovery device for heating liquids according to the invention, characterized in that a cooling air cooler and an air cooler are connected in parallel to the circulation pump cooling tower circuit by means of a two-way control valve. control two-way valves accumulation exchangers equipped with bypasses, where the control two-way valve is connected to the temperature sensor at the outlet of the air cooler, the control two-way valves are connected to temperature sensors of the accumulation exchangers and the cooling tower fan is connected to the temperature sensor at .

By dividing the cooling water using a diverting two-way control valve into two parallel branches with different flow rates, it is possible to raise the temperature of the cooler outlet to the value necessary for heating the storage heat exchangers while ensuring the cooling of the compressed air to the desired temperature.

In the attached figure, the waste heat recovery plant is shown schematically.

An air cooler 2 and an air cooler 5 are connected in parallel to the cooling tower circuit 7 with the circulation pump 2 by means of a two-way control valve 2.

With respect to the air path 17, the air cooler 2 and the air cooler 2 are arranged in series.

Accumulating exchangers 8, 9 are provided in parallel to the air coolers 5 by means of regulating two-way valves 7, which are equipped with bypasses 10, 11. The manifold regulating two-way valve 2 is connected to a temperature sensor 12 which is located at the outlet of the air cooler 2. The control two-way valves 6, 7 are connected to the temperature sensors 13, 14 of the heat exchangers Q, 9. The cooling tower fan 15 is connected to the temperature sensor 16 at the compressed air outlet 17 from the aftercooler 4.

The hot compressed air 17 from the compressor first enters the cooler 5, in which it transfers heat to the part of the cooling water intended for heating the heat exchangers 13, 14. The heating water passes to the cooling tower 2 after the heat exchanger 2 »2.

The second part of the cooling water circulates in the circuit between the cooling tower 2 ^{and the} air cooler 2, in which the compressed air 17 is cooled to the process temperature. For the avoidance of redundant sub-cooling of the compressed air 17 below the set temperature, reflected in increased hot heat exchange means accumulating 2 »2» performance of the cooling tower 2 ^is reduced by shutting off the signal 15 from the Temperature sensor 16 ♦

As a result of this, the reduced heat demand through the cooling tower 2 will allow for increased heat removal of the heat exchangers 8 »2. In the same way, the temperature of the liquids in the heat exchangers is controlled. AA · The distribution of the heating water flow between the storage exchangers 2 »2 ^{and the} bypasses 10.» AA determines the regulated temperature values of their contents.

Claims (1)

SUMMARY OF THE INVENTION An apparatus for utilizing waste heat of compressed air for heating liquids remaining from a heat sink and air cooler of a heat exchanger and a cooling tower, characterized in that a two-way valve is provided to the cooling pump circuit (1) with a circulation pump (2). 3) a parallel connected air cooler (4) and an air cooler (5) to which heat exchangers (8, 9) provided with bypasses (10, 11) are connected by means of control two-way valves (6, 7), wherein the valve (3) is connected to the temperature sensor (12) at the outlet of the air cooler (5), the two-way control valves (6, 7) are connected to the temperature sensors (13, 14) of the accumulator exchangers (8, 9) and the fan (15) the cooling tower (1) is connected to the temperature sensor (16) at the outlet of the compressed air (17) from the air cooler (4). 1 drawing