SU861875A1 - Room ventilation method - Google Patents

Description

(54) VENTILATION METHOD

Claims (4)

The invention relates to a cone type technique and air conditioning. There is a known method of ventilating a ps / 1 solution that has laboratory cabinets by taking in outside air, processing it in air conditioning in a conditioner, feeding it into the room and removing it from working air through the working opening of each cabinet at the expense of the last depression l. The disadvantage of this method is low efficiency. This is reasonably significant} the cost of heat and energy for processing and moving air. The chain of invention is the consummation of economy. The goal is achieved by complementary | (The outside air intake is subjected to heat treatment and supplied to the laboratory head in the form of flat air jets directed towards the room at an angle to the plane of the working opening, in the amount determined from the condition of maintaining the vacuum in the cabinet and turning the air jets to the side The opening, and the amount of outside air supplied to the room is determined from the condition of warm and humid air and gas in the room.The exhaust air from the room can be additionally removed through exhaust grids. To prevent harmful cells from getting inside the room, air can be supplied to the room from the laboratory cabinet.To reduce heat consumption, it is advisable to heat the air, which is heat-treatedV, before being fed into the cabinet, to mix with the internal room air by means of an ejector. VB of ventilation schemes of the ventilation and air-conditioning system in the implementation of the method, when the amount of air removed through the working room of the cabinet is equal to the sum of the quantities of outdoor air, subjected to heat training and heat treatment; in fig. 2 - one of the possible schemes of the ventilation system and being condensed when carrying out the method, the cord through the working opening of the cabinet, removes all the air that has undergone heat treatment and is fed into the cabinet opening, and part of the air that has passed through the heat treatment and is supplied to the room, while the remainder is removed through additional exhaust grids; in fig. 3 - the same, but with the supply of air that has undergone heat treatment by laboratory cabinets; in fig. 4 - one of the possible schemes of the system; we ventilating and conditioning, before supplying air that has undergone teptic processing, into the cabinet, the latter is mixed with the internal air of the room through an ejector; in fig. 5 is shown in t) - oj diagram of the air treatment processes for implementing the air conditioning ventilation method for the circuit shown in FIG. 1 in FIG. b - the same for the circuit shown in fig. 2; in fig. 7 is the same for the circuit shown in FIG. 3. The solid line in FIG. 5,6,7 shows the processes of air treatment, subjected to warm-humid treatment, and the dashed line - the processes of treatment of air supplied to the working aperture; cabinet and first heat treatment only. All shown ventilation and air-conditioning systems for the implementation of the method consist of rooms 1 with laboratory cabinets 2 installed in them, connected with exhaust ducts 3 to exhaust ventilation units 4 and supply air ducts 5 connected by supply ducts 6 to an air conditioner for heat and air treatment, for example, on the heater 7 nepBWo preheating, irrigation chamber 8: and the heater 9 second preheating. Cabinet 2 has a working pro. The U1 installed under the U1 gasket to its flat plane air distribution box 11 on the entire length of the working opening 1O, the air diffusers 12 from the ventilation unit 13, which has a caloric 14, are connected to the air distribution slots 11. exhaust grids 15 and ejectors 16 installed 8 54 in room 1 and connected to the air distribution slot 11. The described method is carried out as follows. The external air quantity is determined from the heat and gas state of the air, is subjected to heat and humidity treatment in an air conditioner by, for example, heating in the first heating heaters 7, the irrigation chamber 8 and the second heating heater 9, and is supplied through the supply air duct 6 to room 1 through supply grilles 5. Additional external air intake is carried out by installation 13 of heat treatment, subjected to it in the heater 14 and fed into the laboratory cabinet 2 in the form of flat air jets, entered into room 1 under d. to the plane of the working projection a. 10. This is carried out using an air guide 12 and a flat air separator slot 11. The amount of air to be additionally taken is determined from the condition of being maintained in the vacuum cabinet. In a number of cases when it is impossible to remove all the exhaust air from the room through the working opening 10 of the cabinet 2, it is additionally removed through the exhaust grilles 15 (Fig; 2). If it is necessary to reduce the heat consumption, it is advisable that the air to be heat treated should be displaced with the supply air into the cabinet 2 with the internal air of the room 1 by means of the ejector 16; With small amounts of air subjected to heat and humidity treatment, it is advisable to feed it into the room. implemented through the supply grilles 5 placed in room 1 from the side of the laboratory cabinet 2. The implementation of the described ventilation method allows to increase efficiency by reducing the air exchange in the room and reducing the heat and energy consumption for processing and air movement. FIG. 5.6.7 shows the parameters in ezduha: N-external; K - after the heater 7 of the first heating; О - after irrigation chambers 8j В - after calorferv 9 of the second heating (conventionally, these parameters are taken as the air parameters in the room); - after kaporif and 14; w - remove the fine from the cabinet; L is the air mixture emitted into the atmosphere, P is a mixture of P9slv of an ejector 16j DL, the enthalpy difference to which 1 kg of outside air should be heated. Thus, this method will increase efficiency by reducing energy costs. Claims 1. A method of ventilating a room that has laboratory cabinets, by taking in outside air, processing it in an air conditioner, feeding it into the room, and removing waste into the air through the working opening of each cabinet due to that, in order to keep the eco-friendly, for a cold period of time, an additional intake of the outside leg of air is subjected to its heat treatment, and is fed into the laboratory Cabinet in the form of flat air jets, directed in the direction of the room at an angle to the plane of the working opening, in the amount} determined from the condition of maintaining the vacuum in the cabinet and turning the air jets in the direction of travel, and the amounts in the outside air supplied to the room are determined from the conditions of the heat and gas pressure of the air ha indoors. 2. A method according to claim 1, in which the waste 03 rooms are removed additionally through the exhaust grids. 3. The method according to claim 1, 1 and 2, that t with a chain prevented the ingress of hazards and cabinets into the room, the air is fed into the room from the labs side of the attorney plates. 4. The method according to claim 1, which is intended so that, in order to reduce heat consumption, the air subjected to heat treatment is mixed with the internal air of the exchange by means of an ejector before being fed into the cabinet. Sources of information taken into account in the examination 1.Karpis E E. Improving the efficiency of air conditioning sistvkt ,. M., stroiizdat, 1977, p. 88-92, 7 / /  I I a I / J / fug. f + - - # j t  fug, 7