RU2036389C1 - Power-saving system of building natural ventilation - Google Patents

Abstract

FIELD: ventilation. SUBSTANCE: system is provided with adjusting heat exchanger having vertical heat exchange surfaces and broken base with upper and lower breaks. Surface of each break are located at maximum inclination equal to 0.02. Connected to heat exchanger are: exhaust shaft and supply and exhaust air ducts which are in communication with building. Exhaust air ducts are connected to heat exchanger in zones of upper break of its base. Heat exchanger is provided with adjustable holes for feeding the plenum air to building. EFFECT: enhanced efficiency. 2 cl, 2 dwg

Description

 The invention can be used in livestock buildings and relates to ventilation.

 Known ventilation system of the room, containing parallel supply and exhaust ducts having a common heat exchange wall located parallel to the coating, fans and an air heater.

 The disadvantage of this system is the heating of the exhaust air in the air heater, which leads to additional costs of thermal energy.

 Known ventilation system of the room, containing fans and a heat exchanger formed by the supply and exhaust channels, made in the form of two hollow arches with a common wall, and limiting the internal space of the room.

 The disadvantages of such a system are the need to use mechanical energy, which leads to a decrease in the reliability of ventilation in operation, and an increase in operating costs.

 Closest to the proposed technical essence is the natural ventilation system of the building, containing a roof, exhaust shaft, supply and exhaust ducts, adjustable valves and a condensate removal system from the heat exchange surface.

 The disadvantage of this system is the incomplete use of the heat content of the exhaust air in the annual cycle of outdoor temperatures.

 The purpose of the invention is to increase the reliability of the system in operation and more fully use the heat of the exhaust air in the annual cycle of outdoor temperature changes.

 To do this, exhaust ducts are connected to the heat exchanger in the areas of the upper break of the base of the heat exchanger and, in the direction of supply air, there are adjustable openings for supplying it to the room.

 In FIG. 1 shows the proposed system, plan; in FIG. 2 building, longitudinal section.

 The energy-economic system of natural ventilation of the room contains parallel supply 1 and exhaust 2 channels having a common heat exchange wall 3, supply 4 and 5 and exhaust 6 air ducts, exhaust shaft 7 and condensate removal system 8 from the surface of the heat exchange wall.

 The energy-economic system of natural ventilation of the room works as follows.

 Due to the action of natural gravitational pressure, warm air is removed from the room through exhaust 6 air ducts connected to the heat exchanger in the areas of the upper fracture of the base, and then through the shaft 7 to the outside.

 As a result of the vacuum created in the room, the outdoor air begins to move through the supply 1 channels and enters the room through the adjustable air ducts 4 heated due to the heat received from the wall. When lowering the temperature of the outdoor air, the duct 4 closes, and the supply air enters the room through the duct 5, overcoming the additional resistance of the heat exchanger due to the increase in gravitational pressure. Condensate formed during cooling of the removed air is collected in the lower zones of the broken base, and then removed.

 The use of such a natural ventilation system allows us to provide the required microclimate in livestock buildings and to abandon the use of electric energy, which reduces operating costs.

Claims (2)

 1. ENERGY-ECONOMIC SYSTEM OF NATURAL VENTILATION OF A BUILDING, containing at least one adjusting heat exchanger with vertical heat exchange surfaces and a broken base with an upper and lower fracture, the surfaces of each fracture are located with a minimum slope equal to i = 0.02, attached to the heat exchanger with an exhaust shaft, and exhaust ducts in communication with the building, characterized in that, in order to ensure the reliability of the heat exchanger at negative outside temperatures, exhaust ducts odes are attached to the heat exchanger in the upper zones of the fracture base exchanger.  2. The system according to claim 1, characterized in that, in order to increase the efficiency of using the heat of the removed air, adjustable openings are made in the heat exchanger for supplying fresh air to the premises.

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