UA63454A - Heating system for dwelling and municipal buildings - Google Patents

Abstract

System for heating dwelling and municipal buildings has a system of feeding and back mains, solar collector, water heat exchanger, heater, circulation pumps, battery of photoelements, automated control block, soil heat exchanger, this comprises two or several sections for accumulation in one of those high-potential, and the others û low potential thermal energy. The system is additionally equipped with heat pump.

Description

Description of the invention

The invention belongs to the field of heating residential and administrative buildings and can be used in the design and arrangement of space heating during the beginning of the heating season in order to save high-potential energy carriers.

The heating system of residential and administrative buildings |1) is known, which has a heater, a circulation pump, heating devices, a system of supply and return mains.

The disadvantage of the known heating system is insufficient energy efficiency due to the use of 70 high-potential energy carriers during the entire heating period.

The heating system for residential and administrative buildings |(|2), which includes a system of supply and return mains, a solar collector, a water heat exchanger, a heater, circulation pumps, a battery of photovoltaic cells, an automatic control unit, a ground heat exchanger, which consists of from two or more sections for the accumulation of high-potential thermal energy in one of them, and low-potential thermal energy in 12 others.

The unreliability of this system lies in the fact that the accumulated heat in the ground heat accumulator is not completely removed from it due to the fact that the temperature of the coolant in the supply line of the heating system cannot be lower than permissible. Thus, the task of selecting only part of the accumulated thermal energy is solved, although it is possible to select all the remaining thermal energy.

The basis of the invention is the task of improving the heating system of residential and civil buildings, in which the presence of a new functional element allows the use of residual thermal energy and thereby expanding the functionality of the system, significantly increasing its efficiency and reducing environmental pollution during the heating period.

The indicated task is solved by the fact that the heating system of residential and administrative buildings, which contains 29 supply and return mains, a solar collector, a water heat exchanger, a heater, circulation pumps, a battery of photovoltaic cells, an automatic control unit, a soil heat exchanger, which consists of two or more sections for accumulating high-potential thermal energy in one of them, and low-potential thermal energy in the others, according to the invention, additionally equipped with a heat pump.

The essence of the invention is explained by the drawing, where Fig. 17 shows the scheme of the low-temperature M heating system. oh

The heating system of residential and administrative buildings includes a solar battery 1, which is connected by a supply line T1 and a return line T2 with a water heat exchanger 2 and a circulation pump 3, in C return line T2 to compensate for the temperature expansion of the coolant circulating in this system, a closed expansion valve is connected tank 4, and after the water heat exchanger 2 along the supply line 71 3o, a remotely controlled control valve VI, a circulation pump 5, a valve B2 and three-way ee, valves VZ, B4 are connected, after which tubular heat exchangers of ground heat accumulators 6, 7 are connected, which supply 11 and return 12 main lines through three-way valves B5, Vb are connected to the heat pump 8, and then the control valve B7, through which the process of mixing cooled and heated water passes, and the circulation pump 9 and the heating panel of the low-temperature heating system 10, along these same With 50 mains, reserve heater 11 is connected to the system, adjusts main three-way valve B8, which is used to mix the heated coolant with the cooled one, and the closed expansion tank 12 for

From" compensation of thermal expansion of the coolant in the heating system, a solar battery of photocells 13, which is used to convert solar energy into electric current to ensure the operation of circulation pumps 3, 9.

The system works in two modes as follows: b 1. Summer mode (thermal energy storage mode). solar energy falling on the solar battery 1 is converted into heat, heating the heat carrier circulating in it, for volume compensation of which a closed expansion tank 4 is used. of energy, sl 20 and further, along the return line T2, with the help of circulation pump 3, is returned to the solar battery 1 for further heating.

T» Then, with the help of the circulation pump 5 in the circuit of the heating system, the coolant enters the water heat exchanger 2, washes its coil, heats up (at the same time, its temperature at the outlet is controlled by the temperature sensor DI) and is fed through the supply line T1 to the three-way control valve 52 VZ, according to which is used to switch the coolant supply depending on its temperature, to high-potential 6 or low-potential 7 soil heat accumulators, where due to heat transfer from the walls of their coils, heat is transferred to the soil, which accumulates it, and the heat carrier, having given part of the thermal energy through the return line 12, returns to the water heat exchanger 2 for reheating. 2. Winter mode (use of accumulated thermal energy for heating the premises). 60 The heat carrier that circulates in the heating system, through the return line T2, enters the soil heat accumulator 7, where it takes the accumulated low-potential heat energy and is sent through the supply line 71 to the three-way control valve B7, where the process of mixing heated and cooled water takes place until the temperature of the heat carrier, set for low-temperature heating, which is controlled by temperature sensor D2. After the discharge of the low-temperature ground heat accumulator 7, the three-way control valve B4 switches the coolant supply to the high-temperature ground heat accumulator

6, after discharge of which residual thermal energy is extracted from heat accumulators by heat pump 8, which is turned on after opening valves B5, Vb. After the selection of all the accumulated thermal energy to heat the coolant, the backup heater 11 is used, where the temperature is controlled by the temperature sensor DZ, and its reduction occurs due to the mixing of the cooled coolant from the return line T2 in the three-way regulating valve B8. The circulation of the coolant in the heating system and ground heat accumulators is carried out using the circulation pump 9, and the compensation of its volume expansion is carried out in the expansion tank 12.

The operation of control valves B1, B2, VZ, B4, B5, Vb, B7, B8 is carried out by the control unit 25 along the corresponding electrical lines 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25.

Thus, due to the accumulation of thermal energy in soil heat exchangers in the warm period of the year, which is then used in the winter period of the year, the period of use of high-potential energy carriers is shifted, while reducing the ecological load on the environment.

Claims (1)

19 The formula of the invention Heating system of residential and public buildings, which includes a system of supply and return mains, a solar collector, a water heat exchanger, a heater, circulation pumps, a battery of photovoltaic cells, an automatic control unit, a soil heat exchanger, which consists of two or more sections for accumulation in one of them high-potential, and in others - low-potential thermal energy, which is distinguished by the fact that it is additionally equipped with a heat pump. « « IF) « (ze) (Se) - and? (o) (95) sh» 1 s» 60 b5