SU86422A1 - Air handling unit - Google Patents

Description

Many enterprises do not use significant excesses of low-grade heat, mainly hot water with a temperature of 50-60 °. At the same time, high-grade teilo is spent on heating the air introduced into the room for inlet ventilation, for example steam at a pressure of 1-3 atlg.

To reduce the consumption of high-grade thermal energy and fuel economy, a supply and ventilation unit is offered.

The operation of this unit does not depend on the outside air temperature, so in winter it can operate at low heat carrier parameters (60-70o).

In the process of air heating, the unit produces its secondary heat transfer medium of increased parameters in the form of steam or superheated water. This coolant can be used for process needs or for heating.

In the proposed unit is used absorptive refrigeration unit.

The peculiarity of the unit is that the elements of the refrigeration unit are combined according to a scheme that does not allow switching of the unit to the reverse process, in order to use it in summer time to cool the air, and in the winter time to heat it.

The drawing shows a diagram of the inlet-valve pion unit.

The constituent parts of the aggregate are; low pressure generator 1; low pressure generator 2 for winter conditions (in summer conditions it acts as a condenser): heater-condenser 3 for winter conditions, an evaporator operating in summer conditions; heat exchanger-rectifier 4; ressorber 5; pumps 6 for pumping a fluid; fan 7; Adjustable valves 8.

The generator 1 is fed ammonia with water under a pressure of 1.8-2.0 atm. Due to the heating of heat carriers by thermal waste, in generation No. 86422

Torus formed 1miami pairs with parameters corresponding to the parameters of the coolant. The outgoing ammonia vapor from the generator is rectified in the heat exchanger-rectifier 4 and enters the heater-condenser 3. In the condenser-heater, ammonia vapors are condensed due to cooling from outside air and forced by the fan through the heater. The heated air enters the room. Since c. in winter, the outside air has a low outside temperature; liquid ammonia, when meeting with outside air, is supercooled to a temperature of -7. Due to this, in the condenser-heater air is heated, which is introduced into the room, the ammonia vapor that is required in the cycle is cooled and condenses.

After condensation, liquid ammonia is pumped by pump 6 under increased pressure to generator 2, where pure ammonia boils and vaporizes; The heating in this generator is carried out by the coolant in the same way as in generator 1, i.e., by thermal waste.

In generator 2, boiling and vaporization of ammonia occurs at high pressure; in this generator, the parameters are significantly higher than in generator 1.

The ammonia vapor from generator 2 enters a spring 5, where ammonia vapor is absorbed at high vapor pressure and a weak solution when high potentials release heat. Due to this heat, the water is heated to a temperature that is 5-1СР lower than the ammonia temperature.

Absorbed ammonia of significant concentration enters generator 1.

When using heat absorption to preheat water, steam or superheated water can be obtained with parameters that are higher than the parameters of the coolant.

Thus, when combining the direct and reverse processes in the condenser, the air is heated and in the absorber a pair of higher parameters is obtained or the water is overheated. This plant is essentially a waste heat recovery plant.

The unit in summer conditions works like oh taditel air. The operation mode is carried out completely according to the operation mode of the refrigeration unit. But separate units, as well as condenser-heater 3 and generator 2, perform other functions in summer. The condenser heater 3 in the summer performs the functions of an evaporator in which ammonia evaporates, cooling air. Under these conditions, generator 2 acts as a capacitor.

The transition from winter to summer operating conditions is performed by opening and closing other valves, adjusting the system to summer mode, and condensation and absorption of ammonia vapor in the condenser and absorber is done with cold water, which for these conditions must be supplied to the apparatuses.

PREDETE H and o about the and with and

Supply and ventilation unit with the use of an absorption refrigeration unit, characterized in that the elements of the unit are connected by pipelines according to a scheme that allows the unit to switch to the reverse process, in order to use the unit for air cooling in summer and for heating in the winter.