DD274881A1 - PROCESS FOR REFRIGERATION COOLING OF AIR - Google Patents

Abstract

The invention relates to a method for evaporative cooling of air by pre-drying and adiabatic humidification in an open process. The aim of the invention is the cooling of very humid and warm air through the use of solar or other low-temperature energy in order to achieve comfort climate conditions with it in areas of effect. According to the invention, this is achieved by a multi-stage drying process with intermediate cooling of the air to be treated. For this purpose, several Entfeuchtungsgeraete and heat transfer are arranged one behind the other, wherein the regeneration of the Entfeuchtungsgeraete done with regeneration air, which sucks a fan over a heated heat exchanger.

Description

1 side drawing

Field of application of the invention

The invention relates to a method for cooling an air stream. The method according to the invention is suitable for providing cooled supply air in comfort air conditioning systems.

Characteristic of the known technical solutions

The necessary for air conditioning cooling of the supplied air can be done by closed process by means of a surface cooling or by open methods in direct heat and mass transfer. The latter is referred to as evaporative cooling, which usually runs as adiabatic humidification and reaches a maximum cooling temperature limit. However, evaporative cooling brings a temperature of the air to be cooled of t 18 C only if its initial state has an enthalpy of h 50kJ / kg dry air. Otherwise, this condition must be brought about by previous drying. The drying is associated with the open process with an increase in temperature of the air to be treated, which can be degraded by a favorable procedure.

A solution for cooling, the so-called MEC system, patented by Carl Munters from Sweden, has been known since 1949. MEC stands for "Munters Environmental Control." This solution was taken up and further developed, for example by RA Macriss and T. Zawacki the 9th Power Engineering Conference in Washington (United States) in February 1982 (High COP rotating wheel solid desiccant system) and I.Wurm in Commission B1 of the International Refrigeration Institute in West Lafayette, Indiana (USA), August 1986 (Review of opencycle desiccant air -conditioning concepts and systems), which in principle uses a single-stage process with only one rotating storage mass.

The heat is supplied both by a gas heating and solar energy. With this method, however hr high temperatures and humidities of the outside air can be reached at ^c "required for air-conditioning supply air temperatures tasks not.

Furthermore, open methods are known in which the drying takes place absoptiv. Scalabrin, G. and Scaltriti, G. describe such a process in the contract "Performance analysis of a liquid absorbent air conditioning system" as well as Bairamov, R. and Ushakova, AD in the lecture "Combined solar installation for space heating and Cooling ". Both are included in the Proceedings of the WS Congress "Clima2000" in Copenhagen in 1985 in volume 5 "Solar energy-active and passive systems". The procedure according to Scalabrin / Scaltriti requires a vial number of pumps and blowers; In addition, the efficiency drops sharply with increasing outside air humidity. Another disadvantage arises from the use of aggressive lithium chloride solution, which requires the use of corrosion-resistant materials and thus causes an increase in equipment costs. In the absorption system of Bairamov / Ushakova a combined solar collector regenerator is used instead of the elaborate desorber. However, this increases its required area because of the comparably low evaporation rate of this collector.

Object of the invention

The aim of the invention is to cool by using solar energy or other low-temperature energy very humid air in an open process with evaporative cooling to the extent that it is suitable as a supply air to achieve comfort climatic conditions. The invention is intended to help to improve the cooling capacity in sunshine-rich countries.

Explanation of the essence of the invention

The object of the invention is to dry to a large extent very humid and warm air, which is to be processed for air conditioning Zwief, that the required for effective evaporative cooling state is reached, and then adiabatically moisten.

According to the invention, this object is achieved in that in a multi-stage process, the very humid air to be treated by several successively connected Luftentfeuchtungsgeräte-led while dehumidified and heated. Because of this occurring heating the reprocessed air is cooled recuperatively after each dehumidifier, for which z. B. outside air, but also exhaust air or mixed air is suitable. This cooling air K>; n is moistened before use and thus cooled. It flows through the radiators in countercurrent to the air to be treated. The fan for promoting the necessary cooling air volume flow is arranged suction behind the radiators, whereby an additional heating of the cooling air is avoided before the cooling process. Optimum loading of the individual coolers with cooling air takes place through air control elements. The moisture transferred to the adsorbent material of the dehumidifiers is re-discharged with an air stream which has been heated with solar or other low temperature energy. This air is conveyed with a fan located behind the heat exchanger. The volume flow of this regeneration air is also divided according to the economically favorable needs of the individual dehumidifiers by air control organs. In contrast to single-stage processes with the principle of action of a single rotating storage mass, a partial or complete reuse of the regeneration air after exiting individual dehumidifiers is possible in accordance with the load of water vapor to be achieved for further dehumidification devices as regeneration air.

A multi-stage drying process for the air to be treated has the further advantage that the entire regeneration air does not have to be heated so high for the regeneration of the storage mass in the dehumidifiers. By lowering the temperature, energy savings and, when using a solar collector, an increase in efficiency for heating the regeneration air is achieved. This increase in efficiency of the solar collector is the result of the reduced temperature difference between the necessary temperature in the solar collector and the outside temperature. An energy saving occurs in the multi-stage structure by the already mentioned reuse of the regeneration air.

The total storage mass for dehumidifying the air to be treated is lowered in the dehumidifiers compared to a single-stage drying process with the same dehumidification performance, or at constant total storage mass is compared to a single-stage drying process dehumidification increased.

embodiment

The invention will be explained in more detail using an exemplary embodiment. In the accompanying drawing shows:

Fig. 1: the circuit arrangement for air cooling with three-stage drying process, intercooling with adiabatically humidified outside air and using heated outside air for regeneration.

Outdoor air as the air to be treated 1 is forced with a fan 2 via a dehumidifier 3 and a cooler 4, where it is cooled after dehumidifying and heating. This is followed by two further analogous stages until the air in a humidifier 5 is adiabatically cooled and reaches the area of action as supply air 6.

In countercurrent outdoor air is heated as regeneration air 7 in a heater 8, which is fed and heated by a solar panel 9, and printed by the fan 2 in parallel flow in all three dehumidifiers 3, which leaves them as moist exhaust air 10, after regenerating the wet adsorbent Has.

For the intermediate cooling outside air is sucked as a cooling air 11 from a fan 2, first via a humidifier 5 and then through the radiator 4 in parallel flow and discharged as heated exhaust air 12 into the environment.

Claims (6)

1. A method for evaporative cooling of air by pre-drying and adiabatic moistening, characterized in that the required for effective evaporative cooling air condition of the air to be processed (1) is achieved by a multi-stage drying with cooling after each drying stage, wherein the required air regeneration of the drying equipment (7) is heated with solar or other low-temperature energy and the necessary ventilation for air fans (2) for the cooling air (11) sucking, for the air to be treated (1) pushing and arranged for the regeneration air (7) after the heater (8) are. 2. The method according to item 1, characterized in that all required for the process entering air streams can be both mixed air and ambient or outdoor air, the resulting exhaust air streams can be supplied depending on the humidity and temperature of further use in the process. 3. The method according to item 1, characterized in that in particular the air used for cooling (11) adiabatically moistened before entry into the actual cooling process and is thus pre-cooled. 4. The method according to item 1, characterized in that the air to be treated (1) in countercurrent to the warm regeneration air (7) which has been heated in the heater (8) with solar or low-temperature energy, by the dehumidifiers (3) and in countercurrent to Cooling air (11) through the radiator (4) is guided. 5. The method according to item 1, characterized in that the mass flow of the cooling air (11) by air control members (13) according to the optimal needs of the individual cooler (4) and the mass flow of the regeneration air (7) by the air control elements of the regeneration air (14) optimally on the dehumidifiers (3) is divided. 6. The method according to item 1, characterized in that the resulting exhaust air streams (10) and (12) can be used outside the method according to item 1.