RU2708419C1 - Supply air conditioning system with non-liquid rotary heating - Google Patents

Abstract

FIELD: ventilation and air conditioning.

SUBSTANCE: invention relates to air conditioning systems for supply air for maintenance of public buildings during cold season. Supply air conditioning system with non-liquid rotary heating, comprising main supply air conditioner, comprising inlet and exhaust chambers, separated between each other by horizontal partition with main and additional rotor channels and arrangement of main rotor channel at inlet of outside air into air conditioner, adsorption rotary regenerator and rotary heat exchanger built into rotor channels of air conditioner horizontal partition wall and having external air inflow line, at that, supply air conditioning system comprises additional air conditioner, air conditioners are arranged in parallel to form a service platform between them, an adsorption rotary regenerator and a rotary heat exchanger of the main air conditioning unit of supply air have a line for drawing air withdrawn from the room, an opposite directed line of external air inflow, adsorption rotary regenerator and rotary heat exchanger of additional plenum air conditioner have oppositely directed lines of external air inflow and plenum air supply, adsorption rotary regenerators of conditioners are built into additional rotor channels of horizontal partitions, and rotary heat exchangers of air conditioners – into main rotor channels of horizontal partitions, inlet chamber of main air conditioner of inlet air at outlet is connected by air duct with exhaust chamber of additional inlet air conditioner, which form non-liquid rotary heating in air conditioners.

EFFECT: obtaining, at the outlet of the additional air-conditioning unit, the claimed conditioning system of clean supply air with preset values of temperature, relative humidity and moisture content; obtaining, in air conditioners of claimed zero-power conditioning system for heating supply air and fresh supply air to final temperature, relative humidity and moisture content at ambient air temperature t₁=-40 °C, relative humidity ϕ₁=0,7 and moisture content d₁=0,055 g/kg without presence of hybrid line of hot air extracting in air conditioners.

1 cl, 3 dwg, 2 tbl

Description

The claimed solution relates to the field of air conditioning systems for servicing public buildings in the cold season, and provides clean fresh air with a temperature of t ₃ = 20 ° C, relative humidity ϕ ₃ = 0.45 (in units) and moisture content d ₃ = 6.5 g / kg dry air at an outdoor temperature of t ₁ = -40 ° C, relative humidity ϕ ₁ = 0.7 (in fractions of units), and a moisture content of d ₁ = 0.055 g / kg dry. air

The inventive air conditioning system contains two air conditioners (a main supply air conditioner and an additional supply air conditioner).

Air conditioners contain supply and exhaust chambers, an adsorption rotary regenerator and a rotary heat exchanger.

The main supply air conditioner has an exhaust line for extracting the air removed from the room, opposite the direction of the outdoor air supply line, and the additional supply air conditioner has oppositely directed lines of the outdoor air supply and supply air exhaust. At the same time, the additional supply air conditioner uses the supply air in its exhaust chamber, obtained in the main supply air conditioner.

The air removed from the room has a temperature of t ₄ = 23 ° C and a moisture content of d ₄ = 8.5 g / kg dry. air The specified moisture content of the air removed from the room is formed outside the inventive supply air conditioning system by wetting the air removed from the room with a temperature of t ₄ = 23 ° C and a moisture content of d ₃ = 6.5 g / kg dry. air in a steam generator that does not cool the humidified air.

The outside air parameters (temperature t ₁ , relative humidity ϕ ₁ , moisture content d ₁ ) correspond to climatic conditions at a barometric pressure P _bar = 101 kPa.

The inventive conditioning system provides for the conditioning of the supply air at an outdoor temperature of t ₁ = -40 ° C and a moisture content of d ₁ = 0.055 g / kg dry. air obtaining clean supply air, zero energy consumption for heating the supply and clean supply air and the formation in its air conditioners of liquid-free rotary heating - Liguidless Rotary Heating (LRH).

From sources of scientific, technical and patent information, air conditioning systems are known. Among them, air conditioning systems were selected for servicing the premises of public buildings, which in the cold season do not provide clean supply air and zero energy consumption for heating the supply air without the presence of a hybrid hot air exhaust line in them, which makes it possible to improve them in the direction indicated in the formula inventions of the claimed solution.

Known supply air conditioning system for public buildings, described in the patent for invention No. 2671909 "Supply air conditioning system with a hybrid hot air exhaust line", issued by application for invention No. 2017139154 with the priority of the invention dated November 10, 2017, published on 07.11. .2018 in Bul. No. 31. Authors: V.E. Voskresensky, A.M. Grimmitlin.

A supply air conditioning system with a hybrid hot air exhaust line, comprising an air conditioner, an outdoor air supply fan, a ventilating exhaust fan, a hot air exhaust fan, an air conditioner comprising a supply chamber and a main exhaust chamber separated by a horizontal intermediate partition with a main and additional rotor channels and the placement of the main rotor channel of the horizontal intermediate partition at the inlet of external air to air conditioner, adsorptive rotary regenerator and rotary heat exchanger-heat exchanger built into the rotor channels of the horizontal intermediate partition of the air conditioner, adsorption rotary regenerator has oppositely directed lines of outdoor air supply and exhaust air drawn from the room, the rotary heat exchanger has an outdoor air supply line, supply and main exhaust chambers contain inlet and outlet pipes, in addition, the air conditioner contains an additional exhaust chamber of hot air inlet and outlet nozzles, characterized in that the supply air conditioning system includes an air distribution unit for exhaust air removed from the room and a hot air temperature closer, a hybrid hot air exhaust line contains inlet and outlet ducts, an adsorptive rotor regenerator is integrated in an additional rotor channel of the horizontal intermediate air conditioning partitions, and the rotary heat exchanger into the main rotor channel of the horizontal industrial of the separating wall, an additional exhaust chamber of hot air is placed above the horizontal intermediate partition of the air conditioner with a rotor heat exchanger covering, which has a hybrid hot air exhaust line opposite the direction of the outdoor air supply line, while the rotary heat exchanger of the air conditioner provides heating of the supply air to the temperature difference formed between the required supply air temperature at the inlet to the adsorption rotary regenerator and the outside temperature of air at the inlet to the rotary heat exchanger, the air distribution unit contains a suction duct, a pressure duct of variable cross section, containing at least two distributing tees of different capacity, an exhaust fan for extracting air from the room, an additional exhaust fan for extracting air from the room, and a suction duct connected to the inlet with the exhaust pipe of the main exhaust chamber of the air conditioner and at the outlet with the suction pipe of the exhaust fan to be removed from the room of air, the discharge pipe of which is connected to the pressure duct of the air distribution unit, the inlet duct of the hybrid hot air exhaust line is made with a variable cross-section and contains at least two collecting tees of different capacity, distributing and collecting tees of the same capacity are connected in pairs by distributing ducts, the hot air temperature closer comprises a supply air chamber for hot air and an exhaust chamber for removal from the room The air ducts are separated by a horizontal partition with a rotor channel, a rotary heat exchanger integrated in the rotor channel of the horizontal partition of the hot air temperature closer, the supply and exhaust chambers of the temperature closer contain inlet and outlet pipes, the inlet duct of the hybrid hot air exhaust line is connected to the inlet by an air duct with the outlet pipe of the supply chamber of the hot air temperature closer and the outlet with the inlet of the additional exhaust chamber of the air conditioner one, the discharge duct of the air distribution unit at the outlet is connected to the inlet of the exhaust chamber of the hot air temperature closer, the outlet of which is connected by the duct to the suction pipe of the additional exhaust fan of the exhaust air from the room, and the exhaust pipe of the additional exhaust chamber of the air conditioner is connected to the exhaust duct of the hybrid exhaust line hot air, which at the outlet is connected to the suction pipe of the exhaust fan about air, the outlet pipe of the supply chamber of the air conditioner is connected by an air duct to the suction pipe of the fan of the outdoor air intake, while the total mass flow rate of the air removed from the room distributed among the distribution ducts is equal to the difference in mass flow rates of the air removed from the room at the inlet and outlet of the pressure duct of the air distribution unit, and the mass flow rate of air removed from the room at the outlet of the pressure duct is equal to the mass flow rate of hot air at the inlet of the system air conditioning unit that mixes the hot and exhaust air from the room in the collecting tees of the inlet duct of the hybrid hot air exhaust line to obtain the required temperature range of the mixed air at the inlet to the additional exhaust chamber of the air conditioner and an eight-fold increase in its mass flow rate compared to the mass flow rate hot air at the entrance to the air conditioning system.

Despite the large number of coinciding features of the prototype and the claimed solution, the lack of distinctive features of the latter in the prototype does not provide a technical result consisting in expanding the functionality of the supply air conditioning system for the following reasons.

The supply air conditioning system adopted as a prototype has functional limitations that do not allow:

1. receive clean supply air;

2. receive zero energy consumption for heating clean fresh air in the air conditioner to a final temperature of t ₅ = 20 ° C, relative humidity ϕ ₅ = 0.45, moisture content d ₅ = 6.5 g / kg dry. air and outdoor temperature t ₁ = -40 ° С, relative humidity ϕ ₁ = 0.7 (in fractions of a unit), moisture content d ₁ = 0.055 g / kg dry. air without the presence of a hybrid hot air exhaust line in the air conditioning system.

Under paragraph 1. of the shortcomings of the supply air conditioning system adopted for the prototype.

The supply air conditioning system adopted for the prototype contains a supply air conditioner that has oppositely directed lines of external air supply and air removed from the room. The air removed from the room contains carbon dioxide and various bacteria and is not clean air. Bactericidal treatment of the air removed from the room disinfects the air removed from the room, but does not reduce the percentage of carbon dioxide in it. In this case, up to 0.3% of the air removed from the room, polluted with carbon dioxide, is sucked into the supply air of the air conditioner through technological gaps formed in the additional rotor channel of the horizontal partition of the air conditioner between the ends of the adsorption rotary regenerator and the horizontal partition. Therefore, the supply air received at the outlet of the adsorption rotary regenerator of the air conditioning system air conditioning - the prototype, is not absolutely clean air.

Under paragraph 2. of the shortcomings of the supply air conditioning system adopted as a prototype.

The supply air conditioning system adopted as a prototype provides zero energy consumption for heating the supply air in the cold season only if it has a hybrid hot air exhaust line that mixes the exhausted air from the room with the hot air at a ratio of their mass flow rates 7: 1 to obtain an eight-fold increase in the mass flow rate of supply air in the air conditioner compared to the mass flow rate of hot air at ambient temperature t ₁ = (- 30) ° С, temperature at the inlet to the inlet duct of the supply air conditioning system, t ₁₅ = 131 ° С, and at the air conditioner inlet after mixing, t ₂₂ = 40 ° C ..

The task of creating a supply air conditioning system with liquid-free rotary heating for public buildings was to improve the design of the air conditioning system - a prototype and to obtain a technical result - expanding the functionality of the supply air conditioning system.

The expansion of the functionality of the supply air conditioning system includes:

1) obtaining at the outlet of the additional supply air conditioner of the inventive air conditioning system of clean supply air with predetermined values of temperature, relative humidity and moisture content;

2) obtaining in the air conditioners of the claimed air conditioning system zero energy consumption for heating the supply air and clean supply air to a final temperature t ₃ , relative humidity ϕ ₃ and moisture content at an outdoor temperature t ₁ = -40 ° C, relative humidity ϕ ₁ = 0.7 and moisture content d ₁ = 0,055 g / kg dry. air without the presence in the air conditioners of a hybrid hot air exhaust line.

The achievement of the above technical result is ensured by the fact that the supply air conditioning system with liquid-free rotor heating, comprising a main supply air conditioner, comprising supply and exhaust chambers separated by a horizontal partition with the main and additional rotor channels and the placement of the main rotor channel at the outdoor air inlet air conditioning, adsorption rotary regenerator and rotary heat exchanger integrated in horizontal rotor channels of the air conditioning unit and having an outdoor air supply line, characterized in that the supply air conditioning system contains an additional supply air conditioner, the air conditioners are arranged in parallel with the formation of a service area between them, the adsorption rotary regenerator and the rotary heat exchanger of the main supply air conditioner have an exhaust line for removal of air, opposite to the line of external air inflow, adsorption rotary regenerator and the heat exchanger of the auxiliary supply air conditioner has opposite directions of the external air supply and supply air extract lines, the adsorptive rotary regenerators of the air conditioners are built into the additional rotor channels of the horizontal partitions, and the rotor heat exchangers of the air conditioners are integrated into the main rotor channels of the horizontal partitions, the supply chamber of the main supply air conditioner at the outlet connected by air duct to the exhaust chamber of the additional air conditioner second air inlet, forming in conditioners aneroid rotor heating.

The technical result of the claimed invention is provided by the totality of the essential features.

The algorithm for calculating the parameters of the outdoor, clean supply and supply air, and their values, providing in the additional supply air conditioner obtaining zero energy consumption for heating the clean supply air to the specified values of temperature t ₃ , relative humidity ϕ ₃ , and moisture content d ₃ , at outdoor temperature t ₁ = -40 ° C and a moisture content of d ₁ = 0.055 g / kg dry. air. are given in table. one.

The algorithm for calculating the parameters of the outdoor, supply and exhaust air from the room, and their values, providing the main supply air conditioner to obtain zero energy consumption for heating the supply air to the set temperature t ₃ , relative humidity ϕ ₃ , and moisture content d _3. , At the outdoor temperature air t ₁ = -40 ° C and a moisture content of d ₁ = 0.055 g / kg dry. air. are given in table. 2.

The proof of the materiality of the differences of the claimed conditioning system and the relationship of the distinguishing features with the achieved technical result is disclosed in the following sequence.

1. Expansion of the functionality of the supply air conditioning system in the form of providing clean supply air with preset values of temperature, moisture content and relative humidity.

2. Expanding the functionality of the supply air conditioning system in the form of ensuring that the air conditioners receive zero energy consumption for heating the supply air and clean supply air to a final temperature t ₃ , relative humidity ϕ ₃ ,. moisture content d ₃ and outdoor temperature t ₁ = -40 ° C, relative humidity ϕ ₁ = 0.7, moisture content d ₁ = 0.055 g / kg dry. air without the presence in the air conditioners of a hybrid hot air exhaust line

The expansion of the functionality of the supply air conditioning system in the form of providing clean supply air with predetermined values of temperature, moisture content and relative humidity is achieved due to the following advantages of the proposed solution.

In the additional supply air conditioner of the inventive air conditioning system, the adsorption rotary regenerator and rotary heat exchanger have oppositely directed lines of outdoor air supply and extract air supply. In this case, the supply air of the supply air exhaust line in terms of carbon content is much cleaner air than the air removed from the room. Therefore, the adsorption rotary regenerator of the additional supply air conditioner provides at its output a clean supply air.

Expanding the functionality of the supply air conditioning system in the form of ensuring that the air conditioners receive zero energy consumption for heating the supply air and clean supply air to a final temperature t ₃ , relative humidity ϕ ₃ ,. moisture content d ₃ and outdoor temperature t ₁ = -40 ° C, relative humidity ϕ ₁ = 0.7, moisture content d ₁ = 0.055 g / kg dry. air without the presence in the air conditioners of a hybrid hot air exhaust line is achieved due to the following advantages of the proposed solution.

1. The adsorption rotary regenerator and rotary heat exchanger of the additional supply air conditioner of the claimed air conditioning system have opposite directions of the outdoor air supply and supply air extracts, and the adsorption rotary regenerator and rotary heat exchanger of the main supply air conditioner have the opposite directions of the outdoor air supply and exhaust from the room air, which ensures the performance of air conditioners with two chambers and the arrival of warm air (removed from the room and the supply air) leaving the adsorption rotary regenerators of the air conditioners, to the entrance to the rotary heat exchangers, which recuperate the heat of the incoming air and transfer it to the supply air in the main supply air conditioner and to the clean supply air in the additional supply air conditioner.

и теплоте

в дополнительном кондиционере приточного воздуха и по передаваемой влаге

и теплоте

в основном кондиционере приточного воздуха, которые совместно с принятым высоким значением эффективности роторных теплообменников

обеспечивают при температуре приточного воздуха на входе в вытяжную камеру дополнительного кондиционера приточного воздуха t₄=21,5°С, при температуре удаляемого из помещения воздуха на входе в вытяжную камеру основного кондиционера приточного воздуха t₄=23°С и температуре наружного воздуха на входах в приточные камеры кондиционеров t₁=-40°С получение нулевого перепада температур на нагревание приточного воздуха в вытяжной камере дополнительного кондиционера приточного воздуха и удаляемого из помещения воздуха в вытяжной камере основного кондиционера приточного воздуха Δt_H=0, и обеспечивает получение нулевого энергопотребления на нагревание приточного и чистого приточного воздуха в кондиционерах системы кондиционирования приточного воздуха без наличия в них гибридной линии вытяжки горячего воздуха.2 The air flows of the air conditioners of the claimed air conditioning system have a moisture content of d ₂ equal to the moisture content of the outside air d ₂ = d ₁ = 0.055 g / kg dry at the inputs of the adsorption rotary regenerators. air, which, when interacting with the moisture content of other air streams at the inputs and outputs of the adsorption rotary regenerators, provides high values of the efficiency of the adsorption rotary regenerators for transmitted moisture

and warmth

in an additional supply air conditioner and moisture transfer

and warmth

mainly a supply air conditioner, which together with the accepted high efficiency value of rotary heat exchangers

provide at a supply air temperature at the inlet to the exhaust chamber of the additional supply air conditioner t ₄ = 21.5 ° C, at a temperature of air removed from the room at the inlet to the exhaust chamber of the main supply air conditioner t ₄ = 23 ° C and an outdoor temperature at the inlets in the supply chambers of the air conditioners t ₁ = -40 ° С obtaining a zero temperature difference for heating the supply air in the exhaust chamber of the additional air conditioner of the supply air and the air removed from the room in the exhaust chamber of the main supply air conditioner Δt _H = 0, and provides zero energy consumption for heating the supply and clean supply air in the air conditioners of the supply air conditioning system without the presence of a hybrid hot air exhaust line in them.

The values of the air flow parameters in the zones of the additional supply air conditioner of the claimed air conditioning system are shown in FIG. 2, and the values of the air flow parameters in the zones of the supply air conditioner are shown in FIG. 3.

The absence in air conditioners of the inventive supply air conditioning system of air heaters to obtain the required temperature, relative humidity and moisture content of the supply and clean fresh air ensures the formation in the air conditioners of the inventive air conditioning system of liquid-free rotary heating - Liguidless Rotary Heating (LRH).

In FIG. 1 is a schematic diagram of the inventive supply air conditioning system with liquid-free rotary heating; in FIG. 2 is a vertical section of an additional supply air conditioner with numbering of the zones of the heat-moisture state of the air flows and their parameters by zones; in FIG. 3 is a vertical section of the main supply air conditioner with the numbering of the zones of the heat-moisture state of the air flows and their parameters by zones;

In FIG. 1-3 indicated: LDNV - line of outdoor air inflow; LVUV - exhaust line of air removed from the room; LVPV - supply air exhaust line.

A supply air conditioning system with liquid-free rotor heating, comprising a main supply air conditioner 1, a supply air 2 and an exhaust 3 chambers separated by a horizontal partition 4 with a main 5 and an additional 6 rotor channels and the placement of the main rotor channel 5 at the outdoor air inlet to the air conditioner , 1 adsorption rotary regenerator 7 and rotary heat exchanger 8, built into the rotor channels 5, 6 of the horizontal partition 4 of the air conditioner 1 and having an outward flow line air, characterized in that the supply air conditioning system contains a clean supply air conditioner 13, air conditioners 1, 9 are arranged in parallel with the formation of a service area between them, the adsorption rotary regenerator 7 and rotary heat exchanger 8 of the main supply air conditioner 1 have an exhaust line to be removed from the room air, opposite to the direction of the outdoor air supply line, adsorption rotary regenerator 7 and rotary heat exchanger 8 of an additional air conditioner 9 of air, have opposite directions of the external air supply and exhaust air exhaust lines, adsorptive rotor regenerators 7 of air conditioners 1, 9 are built into additional rotor channels 6 of horizontal partitions 4, and rotor heat exchangers 8 of air conditioners 1, 9 are integrated into main rotor channels of 5 horizontal partitions 4 air conditioners 1, 9, the supply chamber 2 of the main supply air conditioner 1 at the outlet is connected by the duct 10 to the exhaust chamber 3 of the additional supply air conditioner 9 at the inlet, forming non-liquid rotary heating in conditioners 1, 9

The inventive supply air conditioning system can operate in the same supply air conditioning mode at an outdoor temperature of t ₁ = -40 ° C and a moisture content of d ₁ = 0.055 g / kg dry. air

The inventive air conditioning system operates as follows. The outdoor air supply line and the exhaust air line drawn from the premises, the adsorption rotary regenerator 7 and the rotary heat exchanger 8 of the main supply air conditioner 1, as well as the external air supply line and the supply air exhaust line, the adsorption rotary regenerator 7 and the rotary heat exchanger 8 of the additional supply air conditioner are operating 9. Supply air from the supply chamber 2 of the main supply air conditioner 1 enters through the duct 10 into the exhaust chamber 3 of the additional con supply air dicenter 9 with the formation in air conditioners 1 and 9 at an outdoor temperature of t ₁ = -40 ° C and a moisture content of d ₁ = 0.055 g / kg dry. air liquid-free rotor heating and obtaining at the outlet of the supply chamber 2 of an additional air conditioner 9 of clean fresh air with predetermined values of temperature, relative humidity and moisture content.

All of the above, including a description of the operation of the inventive supply air conditioning system, confirms the possibility of its use in the premises of public buildings with obtaining high technical indicators in comparison with the known supply air conditioning systems. In addition, both in the sources of patent and scientific and technical information, and in the premises of public buildings, such a supply air conditioning system was not found, which indicates that the claimed invention meets all patentability criteria.

Sequence listing

(Composition of a supply air conditioning system with liquid-free rotary heating)

1. Basic air conditioning.

2. Supply chamber of the supply air conditioner.

3. The exhaust chamber of the supply air conditioner.

4. The horizontal partition of the supply air conditioner.

5. The main rotor channel of the horizontal partition of the supply air conditioner.

6. Additional rotor channel of the horizontal partition of the supply air conditioner.

7. Adsorption rotary regenerator of the supply air conditioner.

8. Rotary heat exchanger of the supply air conditioner.

9. Additional supply air conditioning.

10. Air duct connecting the supply chamber of the supply air conditioner at its outlet with the exhaust chamber of the additional supply air conditioner at the inlet.

Claims (1)

A supply air conditioning system with liquid-free rotor heating, comprising a main supply air conditioner, comprising supply and exhaust chambers separated by a horizontal partition with a main and additional rotor channels and a main rotor channel at the outside air inlet to the air conditioner, an adsorptive rotor regenerator and a rotary heat exchanger built into the rotor channels of the horizontal partition of the air conditioner and having a line of outdoor air flow from characterized in that the supply air conditioning system contains an additional supply air conditioner, the air conditioners are placed in parallel with the formation of a service area between them, the adsorption rotary regenerator and the rotary heat exchanger of the main supply air conditioner have an exhaust line for extracting air from the room, opposite to the outside air supply line I have a rotary regenerator and a rotary heat exchanger of an additional supply air conditioner the opposite directional lines of outdoor air supply and exhaust air exhaust, adsorption rotary conditioners of air conditioners are built into additional rotor channels of horizontal partitions, and rotary heat exchangers of air conditioners are integrated into the main rotor channels of horizontal partitions, the supply chamber of the main supply air conditioner at the outlet is connected by an air duct to the exhaust chamber of the additional supply air conditioner at its inlet, forming liquid-free rotor in air conditioners agrevanie.

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