CN204438314U - Based on separate heat pipe flat-plate solar collector coupling indoor heating system - Google Patents

Abstract

The utility model discloses a kind of based on separate heat pipe flat-plate solar collector coupling indoor heating system, comprise outdoor thermal-arrest assembly and indoor Control Component, outdoor thermal-arrest assembly comprises heat collector cases and is arranged on heat-absorbing plate core, evaporating heat-exchanging pipe and the vaporization chamber in heat collector cases; Indoor Control Component comprises heat storage water tank, spiral-tube condenser, hydrops cup, temperature sensor, flow control pump, gas-liquid separator, cool-heat-exchanger, supply fan, supply fan pipeline, give vent to anger fan and fan pipeline of giving vent to anger; Institute's spiral-tube condenser is placed in heat storage water tank inside, and spiral-tube condenser is provided with influent stream mouth and goes out head piece; Influent stream mouth one end of spiral-tube condenser exports with boil-off gas and is connected, and the head piece that goes out of spiral-tube condenser is connected with condensate inlet.The utility model adopts separating heat tube technology, ensure that system thermal efficiency is high, solves the antifreeze problem of flat-plate solar collector and system pipeline simultaneously.

Description

Based on separate heat pipe flat-plate solar collector coupling indoor heating system

Technical field

The utility model belongs to field of solar energy utilization, particularly relates to a kind of separate heat pipe flat-plate solar collector coupling indoor heating system.

Background technology

Along with the development of society, the material and cultural life of people obtains significant raising, and no matter solar water heater, as a kind of domestic heating heating equipment of condition of improving the people's livelihood, is obtained in city or rural area and applies widely.Scientist says understanding new forms of energy and correctly uses the energy, just means that understanding leads to following road.How effectively and reasonable distribution current natural resources and energy resources problem is day by day serious, while, health requirements comfortable in guarantee, utilize resource, reduce conventional energy resource consumption become people have to faced by problem; The product structure of the develop rapidly of recent year market economy, enterprise, industry is in continuous change, Market competition, by the impact of relation between market supply and demand, China's solar water heater industry development is rapid, on market today, its capacity of solar water heater is huge, mainly contains flat plate solar water heater and vacuum tube type solar energy water heater; Ordinary flat type solar water heater does not have antifreeze function, is not suitable for the north; And although vacuum tube type solar energy water heater is applicable to the north, because vacuum tube easily bursts, therefore maintenance rate is high; Market also has a kind of heat pipe flat water heater in addition, the heat storage water tank of this water heater and heat collector connect together, both be applicable to south and be also applicable to the north, but its complex structure, manufacturing cost is high, can only be arranged on the roof of one-storey house roof multi-storey building, and the low layer user of such building is when using hot water, go out the hot water time slowly, add the wasting phenomenon of domestic water.

Summary of the invention

Goal of the invention: in order to overcome the deficiencies in the prior art, the utility model provides a kind of Novel separated type heat pipe flat-plate solar collector coupling indoor heating system, separating heat tube technology is adopted flat-plate solar collector casing and heat storage water tank to be separated, the evaporation ends of heat pipe is arranged in heat collector cases, the condensation end of heat pipe is arranged in indoor heat storage water tank, heat pipe evaporation ends is connected with adopting thermal medium efferent duct and condensate liquid return duct between condensation end, form thermal-arrest, heat release circulation line, by the operation principle of steam pressure and micro flow control pump, realize the long-range transmission of thermal medium.

technical scheme:for achieving the above object, the technical solution of the utility model is as follows

Based on separate heat pipe flat-plate solar collector coupling indoor heating system, it is characterized in that: comprise outdoor thermal-arrest assembly and indoor Control Component, described outdoor thermal-arrest assembly comprises heat collector cases and is arranged on the heat-absorbing plate core in described heat collector cases, evaporating heat-exchanging pipe and vaporization chamber, described heat collector cases is also provided with boil-off gas outlet and condensate inlet, described boil-off gas outlet is connected with described vaporization chamber, the length direction that described evaporating heat-exchanging pipe prolongs described vaporization chamber be arranged in parallel and is connected with described condensate inlet, heat collector backboard and insulation material is also provided with in described evaporating heat-exchanging pipe lower end, described heat-absorbing plate core is also provided with transparent cover plate, described indoor Control Component comprises heat storage water tank, spiral-tube condenser, hydrops cup, temperature sensor, flow control pump, gas-liquid separator, cool-heat-exchanger, supply fan, supply fan pipeline, give vent to anger fan and fan pipeline of giving vent to anger, described spiral-tube condenser is placed in heat storage water tank inside, and described spiral-tube condenser is provided with influent stream mouth and goes out head piece, influent stream mouth one end of described spiral-tube condenser is connected with the top port of described gas-liquid separator, the bypass ports of gas-liquid separator is exported with described boil-off gas by a thermal medium efferent duct and is connected, the head piece that goes out of described spiral-tube condenser is connected with described hydrops cup top port, and hydrops cup bottom port connects described flow control pump, described flow control pump is connected with described condensate inlet by a condensate liquid return duct, described outdoor thermal-arrest assembly forms the evaporation ends of separate heat pipe, described spiral-tube condenser and cool-heat-exchanger form the condensation end of described separate heat pipe, and described evaporation ends and condensation end form a circulation canal by thermal medium efferent duct and condensate liquid return duct, the bypass end port of hydrops cup connects described gas-liquid separator, in the hollow cylinder of described spiral-tube condenser, arrange described cool-heat-exchanger, one end of described cool-heat-exchanger is connected with described supply fan, the other end of described cool-heat-exchanger with described give vent to anger to fan be connected.

Described heat storage water tank is provided with water inlet pipe, water inlet pipe is provided with self water feeding magnetic valve, be also provided with water level controller in the inwall upper end, side of described heat storage water tank, the signal output part of water level controller is connected with the signal input part of self water feeding magnetic valve.

The also set temperature sensor in the side of described heat storage water tank, the signal output part of described temperature sensor is connected the flow of the adjustment condensate liquid return duct inner condensat liquid for controlling described flow control pump with the signal input part of flow control pump.

beneficial effect

1. adopt the full liquid evaporimeter of tube wing type and separating heat tube technology, flat-plate solar collector casing and heat storage water tank are separated, thermal medium efferent duct and condensate liquid return duct is adopted to be connected between heat collector with heat storage water tank, form thermal-arrest circulation line, assist condensing reflux by the pressure of steam and micro flow control pump, realize the long-range transmission of thermal medium; Its heat transfer power is higher than general heat pipe, the several times of common water heater Natural Circulation and the forced circulation thermal efficiency, utilize phase change medium can keep and prevent scattering and disappearing of when separating heat tube does not work heat energy, solve the antifreeze problem of flat-plate solar collector and system pipeline simultaneously.

2. adopt flow pump to control the capacity of returns of condensate liquid, ensure the security of system, controlled the duty of micro flow pump by temperature sensor, guarantee the stability of circulation line; Owing to have employed the circulation line of thermal-arrest and heat supply, therefore the layout of flat-plate solar collector and heat storage water tank can be very flexible, the place that the windowsill that flat-plate solar collector both can be placed on high-rise building faces south, also the roof of multi-storey building and the roof of one-storey house can be arranged in, even can adopt wall-hanging convenient and flexible installation, can meet or adapt to architecture-integral requirement.

3. the utility model adopts Natural Circulation and forced circulation principle to improve the heat exchange efficiency of system, make full use of solar energy resources, like this for the use of the underlying user solar water heater of building provides conveniently, the time going out hot water is fast, reduce the wasting phenomenon of domestic water, same storage tank both can be arranged on bathroom, also can be arranged in kitchen, the clean of domestic water can be ensured like this, thoroughly can solve again the problem of the bursting by freezing of pipeline and the fouling of heat collector.

Accompanying drawing explanation

Fig. 1 is the utility model system architecture schematic diagram;

Fig. 2 is the utility model system heat collector cut-away view;

Fig. 3 is the indoor arrangement structural map of the utility model heating installation;

In figure: solar absorber plate core 1, evaporating heat-exchanging pipe 2, collector frame 3, vaporization chamber 4, heat collector backboard 5, transparent cover plate 6, thermal medium efferent duct 7, condensate liquid return duct 8, heat storage water tank 9, gas-liquid separator 10, spiral-tube condenser 11, cool-heat-exchanger 12, the excessive pipe 13 of condensation, hydrops cup 14, flow control pump 15, heat storage water tank water inlet pipe 16, electronics intake valve 17, water level controller 18, supply fan 19, supply fan pipeline 20, to give vent to anger fan 21, give vent to anger and fan pipeline 22, daily water consumption outlet pipe 23, temperature sensor 24, insulation material 25.

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model is further described

As shown in Fig. 1 Fig. 2, a kind of Novel separated type heat pipe flat-plate solar collector coupling indoor heating system, comprises outdoor thermal-arrest assembly and indoor Control Component.Outdoor thermal-arrest assembly comprises flat-plate solar collector casing, evaporating heat-exchanging pipe 2, collector frame 3, heat collector backboard 5, insulation material 25, transparent cover plate 6 and vaporization chamber 4; Vaporization chamber 4 comprises the evaporation ends of the separating heat tube pipe row of heat collector heat-absorbing plate core 1 and evaporating heat-exchanging pipe 2 one formation; The evaporating heat-exchanging pipe 2 of heat pipe evaporation ends, connects the influent stream mouth of condensation end of heat pipe spiral condenser 11 by thermal medium efferent duct 7; Heat collector heat-absorbing plate core 1 surface is solar selective heat-absorbing coating; Indoor Control Component comprises heat storage water tank 9, condensation end of heat pipe spiral-tube condenser 11, hydrops cup 14, micro flow control pump 15, gas-liquid separator 10, cool-heat-exchanger 12, supply fan 19, supply fan pipeline 20, give vent to anger fan 21 and fan pipeline 22 of giving vent to anger; It is inner that spiral-tube condenser is placed in heat storage water tank 9; Spiral-tube condenser 11 is provided with influent stream mouth and goes out head piece, influent stream mouth one end of spiral-tube condenser 11 is connected with the top port of gas-liquid separator 10 through the shell of heat storage water tank 9, the bypass ports of gas-liquid separator 10 connects one end of thermal medium efferent duct 7, and the other end of thermal medium efferent duct 7 connects the vaporization chamber 4 of solar thermal collector; The head piece that goes out of spiral-tube condenser 11 is connected with hydrops cup 14 top port through the bottom end plate of heat storage water tank 9, hydrops cup 14 bottom port connection traffic control pump 15; Flow control pump 15 connects one end of condensate liquid return duct 8, and the other end of condensate liquid return duct 8 connects the import of vaporization chamber hot media channel, and the bypass end port of hydrops cup 14 connects gas-liquid separator 10.

Cool-heat-exchanger 12 is also provided with in the condenser hollow cylinder that the helix tube type of heat storage water tank encompasses, one end inlet end of cool-heat-exchanger 12 is connected with extraneous supply fan pipeline 20 one end through the top end plate of heat storage water tank 9, the other end connection supply fan 19 of supply fan pipeline 20; The other end outlet side of cool-heat-exchanger 12 fan pipeline 22 through the bottom end plate of heat storage water tank 9 and is connected with giving vent to anger, and the other end connection of fanning pipeline 22 of giving vent to anger is given vent to anger fan 21.

The vaporization chamber 4 of heat collector connects the influent stream mouth of the spiral-tube condenser 11 in heat storage water tank 9 by thermal medium efferent duct 7, condenser go out head piece connection traffic control pump 15, flow control pump connects condensate liquid return duct 8, and condensate liquid return duct 8 connects solar thermal collector; The place that separate heat pipe flat-plate solar collector is arranged on outdoor roof or windowsill, balcony faces south, the position of heat collector vaporization chamber lower than condenser, also can be parallel to condenser, can also higher than condenser; Heat-absorbing plate core 1 and evaporating heat-exchanging pipe 2 is provided with in flat-plate solar collector, heat-absorbing plate core and evaporating heat-exchanging pipe one form separating heat tube evaporation ends, and form the hot media channel of vaporization chamber 4, steam outlet and condensate liquid refluxing opening is respectively arranged with in the upper end of heat collector; Steam outlet connects one end of thermal medium efferent duct 7, and the other end of thermal medium efferent duct 7 connects the influent stream mouth of the spiral-tube condenser 11 of condensation end of heat pipe; One end going out head piece connection condensate liquid return duct 8 of condenser, the other end of condensate liquid return duct 8 connects the condensate liquid refluxing opening of solar thermal collector.

Heat storage water tank 9 is cylindrical structure, and inner barrel material adopts corrosion resistant plate to make, and shell body adopts plastic-steel to make; Full insulation material is filled between inner barrel and shell; Spiral-tube condenser 11 is placed in the inside of heat storage water tank 9, soaks the heat-exchanging water be placed in water tank completely; Spiral-tube condenser 11 is provided with influent stream mouth and goes out head piece; Influent stream mouth one end of spiral-tube condenser is connected with the top port of gas-liquid separator 10 through the side shell of heat storage water tank 9, the bypass end port of gas-liquid separator 10 connects one end of thermal medium efferent duct 7, and the other end of thermal medium efferent duct 7 connects the steam outlet of solar thermal collector vaporization chamber 4; The head piece one end that goes out of spiral-tube condenser 11 is connected with hydrops cup 14 top port through the bottom end plate of heat storage water tank 9, hydrops cup 14 bottom port connection traffic control pump 15; Flow control pump 15 connects one end of condensate liquid return duct 8, and the other end of condensate liquid return duct 8 connects the condensate liquid refluxing opening of heat collector.

The pipeline of thermal medium efferent duct 7 is provided with gas-liquid separator 10; Gas-liquid separator 10 is three way type cylindrical shell, and be provided with three ports, cylindrical shell top port is connected with the influent stream mouth of spiral-tube condenser 11, cylinder body bottom port is connected with the bypass ports of hydrops cup 14 by excessive pipe 13, the bypass end port of cylindrical shell connects one end of thermal medium efferent duct 7, and the other end of thermal medium efferent duct 7 connects the steam outlet of solar thermal collector vaporization chamber.The cold-producing medium of evaporation collects and then enters gas-liquid separator 10 in thermal medium efferent duct 7, the liquid carried secretly in steam is collected at gas-liquid separator 10 bottom under gravity, flow into hydrops cup 14 by excessive pipe 13 gas-liquid, steam enters by separator 10 top port the spiral-tube condenser 11 be arranged in heat storage water tank 9; Spiral-tube condenser 11 heats the cold water in heat storage water tank 9 by condensation heat release, condensate liquid is surveyed and is entered hydrops cup 14 under gravity, to supplement in vaporization chamber 4 by the liquid evaporated through condensate liquid return duct 8 again, this completes long-range heat-transfer working medium between a heat collector heat pipe evaporation ends and the condensation end of heat pipe of heat storage water tank 9 and circulate.

The pipeline of condensate liquid return duct 8 is provided with hydrops cup 14; Hydrops cup 14 is three way type cup, and is provided with three ports, cup top port connect spiral-tube condenser 11 go out head piece, bottom of cup port is connected with the head piece that enters of flow control pump 15; One end going out head piece connection condensate liquid return duct 8 of flow control pump 15, the other end of condensing reflux pipe 8 connects the condensate liquid refluxing opening of solar thermal collector.

Water level controller 18 is provided with in the inwall upper end, side of heat storage water tank 9; Water inlet pipe 16 is provided with self water feeding magnetic valve 17, and the signal output part of water level controller 18 is connected with the signal input part of self water feeding magnetic valve 17.When the water yield in heat collection water tank is below or above a certain setting value, can self water feeding or stopping water supply.

In the side of heat storage water tank 9, cooling-water temperature sensor 24 is set, flow control pump 15 is also provided with at condensate liquid return line, the entrance of micro flow control pump connects hydrops cup 14, the outlet of flow control pump 15 connects one end of condensate liquid return duct 8, and the other end of condensate liquid return duct 8 connects the condensate liquid refluxing opening of solar thermal collector; The measuring junction of temperature sensor 24 stretches in the heat-exchanging water of heat storage water tank 9, record the water temperature of heat storage water tank 9 below or above a certain setting value, pass the signal along to flow control pump 15, determine unlatching or the closedown of flow control pump 15, temperature sensor 24 controls the duty of flow control pump 15; The signal output part of temperature sensor 24 is connected with the signal input part of micro flow control pump.

Separate heat pipe flat-plate solar collector coupling indoor heating system, its heat collector comprises described heat collector absorber plate, and heat collector heat-absorbing plate core surface is solar selective heat-absorbing coating; Evaporating heat-exchanging pipe 2 and heat absorbing fins is provided with on heat-absorbing plate core 1 or in heat-absorbing plate core; Evaporating heat-exchanging pipe 2 and heat absorbing fins link into an integrated entity, and form the vaporization chamber 4 of collecting system; Evaporation ends and the heat-absorbing plate core of separate heat pipe are one-body molded; The condensation end of separate heat pipe is designed to spiral-tube condenser 11, is arranged in heat storage water tank 9.

The upper end of flat-plate solar collector vaporization chamber is provided with thermal medium efferent duct 7 and condensate liquid return duct 8, thermal medium is transported to the red copper screw pipe formula condenser of condensation end of heat pipe by heat collector vaporization chamber by thermal medium efferent duct 7 in normal conditions, thermal medium exothermic condensation becomes liquid, cold water in working media condensation liberated heat heating heat storage water tank 9, realizes long-range heat transfer.The condensed condensate liquid of heat exchange connects solar thermal collector vaporization chamber through subcooling condensate return duct 8, cool-heat-exchanger 12 is also provided with in heat storage water tank 9, be furnished with supply fan 19 and realize indoor heating with fan 21 of giving vent to anger, be provided with daily water consumption outlet pipe 23 in bottom, heat storage water tank 9 side, ensure the supply of daily slurry and bath water.

As shown in Figure 2, vaporization chamber 4 comprises evaporating heat-exchanging pipe 2, heat-absorbing plate core 1, framework 3, insulation backboard 5, transparent cover plate 6; The top of heat-absorbing plate core 1 is provided with transparent cover plate 6, and the back of heat-absorbing plate core is provided with backboard 5 and heat-insulation layer 25, and vaporization chamber 4 surrounding is provided with frame.Heat-absorbing plate core 1 is provided with evaporating heat-exchanging pipe 2 and heat absorbing fins, heat exchanger tube and heat absorbing fins link into an integrated entity, and multiple heat absorbing fins connects into a whole plate each other.

Heat exchanger tube adopts heat-conducting metal to make, and composed in parallel the heat-absorbing plate core 1 of vaporization chamber by many evaporating heat-exchanging pipes, two of the heat exchanger tube of vaporization chamber 4 is connected with thermal medium efferent duct 7 and condensate liquid return duct 8 respectively.

Solar thermal collector is the pith of whole thermal-arrest heat transfer system, system is when original state, before separating heat tube starts, fill cold-producing medium in vaporization chamber 4 inner passage, at this moment the pressure and temperature of vaporization chamber 4 inner refrigerant is saturation pressure and the saturation temperature of cold-producing medium under environment temperature; Along with heat-absorbing plate core absorbs solar radiation energy, heat-absorbing plate core temperature rises, and inner passage inner refrigerant starts evaporation, and pressure and temperature starts to rise.Working media is formed as full-liquid type evaporation in the evaporation of heat exchanger tube, and full-liquid type evaporation effectively improves the heat exchange efficiency of separating heat tube evaporation ends on the one hand, makes the efficiency of thermal transfer of separating heat tube obtain larger lifting; Evaporation evenly fully, ensure that whole heat-absorbing plate core surface temperature is even on the other hand.

As shown in figures 1 and 3, the heat pipe evaporation ends in solar thermal collector and the condensation end of heat pipe in indoor heat storage water tank 9 complete thermal-arrest and heat release by thermal medium efferent duct 7, condensate liquid return duct 8 and micro flow pump thus realize the circulation of long-range heat-transfer working medium; First sunlight is irradiated on heat-absorbing plate core by transparent cover plate, at this moment on heat absorbing fins solar selectively absorbing coating owing to absorbing solar radiation be converted into heat energy, transfer heat to the working media of heat exchanger tube inside simultaneously, by the effect of phase change medium, become gaseous state after liquid state in pipe is absorbed heat, form heat pipe evaporation ends; Secondly the thermal medium after pervaporation, enters the spiral-tube condenser 11 of condensation end of heat pipe by thermal medium efferent duct and gas-liquid separator 10, become liquid through gaseous state exothermic condensation, the cold water at medium condenses liberated heat heating heat storage water tank center; The liquid state of thermal medium flows into hydrops cup 14 through excessive pipe under gravity, then through condensate liquid return duct 8, micro flow pump, enters evaporimeter, and again absorb the solar energy of hot plate core conversion, moved in circles delivered heat like this.Also be provided with cool-heat-exchanger in the condenser hollow cylinder that helix tube type in described heat storage water tank encompasses, cool-heat-exchanger 12 is provided with air inlet port and air outlet; The inlet end of cool-heat-exchanger 12 is connected with supply fan pipeline 20 one end in the external world through the top end plate of heat storage water tank 9, and the other end of supply fan pipeline 20 is connected with supply fan 19; The outlet side of cool-heat-exchanger 12 is connected with one end of fanning pipeline 22 of giving vent to anger through the bottom end plate of heat storage water tank 9, and the other end fanning pipeline 22 of giving vent to anger is connected with fan 21 of giving vent to anger.System is in indoor heating process, supply fan pipeline 20 passes through supply fan 19 from extraneous (indoor) extracting air, pass into the cool-heat-exchanger 12 in heat storage water tank 9, the gas after heat exchange, then the gas after heating is transported to indoor (room or parlor in) by fan pipeline 22 of giving vent to anger; Supply fan 19 and fan 21 of giving vent to anger are installed in indoor, all enter the outer wall of wall coil road and open piping be all coated with insulation material.

Claims (3)

1. based on separate heat pipe flat-plate solar collector coupling indoor heating system, it is characterized in that: comprise outdoor thermal-arrest assembly and indoor Control Component, described outdoor thermal-arrest assembly comprises heat collector cases and is arranged on the heat-absorbing plate core (1) in described heat collector cases, evaporating heat-exchanging pipe (2) and vaporization chamber (4), described heat collector cases is also provided with boil-off gas outlet and condensate inlet, described boil-off gas outlet is connected with described vaporization chamber (4), the length direction that described evaporating heat-exchanging pipe (2) prolongs described vaporization chamber (4) be arranged in parallel and is connected with described condensate inlet, heat collector backboard (5) and insulation material (25) is also provided with in described evaporating heat-exchanging pipe (2) lower end, described heat-absorbing plate core (1) is also provided with transparent cover plate (6), described indoor Control Component comprises heat storage water tank (9), spiral-tube condenser (11), hydrops cup (14), temperature sensor (24), flow control pump (15), gas-liquid separator (10), cool-heat-exchanger (12), supply fan (19), supply fan pipeline (20), give vent to anger fan (21) and fan pipeline (22) of giving vent to anger, it is inner that described spiral-tube condenser (11) is placed in heat storage water tank (9), and described spiral-tube condenser (11) is provided with influent stream mouth and goes out head piece, influent stream mouth one end of described spiral-tube condenser (11) is connected with the top port of described gas-liquid separator (10), the bypass ports of gas-liquid separator (10) is exported with described boil-off gas by a thermal medium efferent duct (7) and is connected, the head piece that goes out of described spiral-tube condenser (11) is connected with described hydrops cup (14) top port, and hydrops cup (14) bottom port connects described flow control pump (15), described flow control pump (15) is connected with described condensate inlet by a condensate liquid return duct (8), described outdoor thermal-arrest assembly forms the evaporation ends of separate heat pipe, described spiral-tube condenser and cool-heat-exchanger form the condensation end of described separate heat pipe, and described evaporation ends and condensation end form a circulation canal by thermal medium efferent duct (7) and condensate liquid return duct (8), the bypass end port of hydrops cup (14) connects described gas-liquid separator (10), described cool-heat-exchanger (12) is set in the hollow cylinder of described spiral-tube condenser (11), one end of described cool-heat-exchanger (12) is connected with described supply fan (19), and the other end of described cool-heat-exchanger (12) is fanned (21) be connected with described being given vent to anger.

2. according to claim 1 based on separate heat pipe flat-plate solar collector coupling indoor heating system, it is characterized in that: on described heat storage water tank (9), be provided with water inlet pipe (16), water inlet pipe (16) is provided with self water feeding magnetic valve (17), also be provided with water level controller (18) in the inwall upper end, side of described heat storage water tank (9), the signal output part of water level controller (18) is connected with the signal input part of self water feeding magnetic valve (17).

3. according to claim 1 based on separate heat pipe flat-plate solar collector coupling indoor heating system, it is characterized in that: the also set temperature sensor (24) in the side of described heat storage water tank (9), the signal output part of described temperature sensor (24) is connected the flow of adjustment condensate liquid return duct (8) inner condensat liquid for controlling described flow control pump (15) with the signal input part of flow control pump (15).