CS262134B1 - Partial capacitor - Google Patents

Abstract

The purpose of the solution is such a design of a partial condenser, which achieves savings in the cost of manufacturing the condenser, space and energy costs. The essence of the solution is that a longitudinal horizontal partition is inserted into the inner space of the condenser, dividing this space into a condensing part and a space in which the condensate exiting* from the condenser through outlet ports, leading from the space under the longitudinal horizontal partition, is cooled.

Description

The invention relates to a partial condenser with horizontally placed cooling tubes, used in particular in the chemical industry for condensing a medium composed of gases of different condensation temperatures.

Previously known devices where the technological process requires the use of partial condensers with horizontally located cooling tubes are designed to be a condenser consisting of a vessel with vapor inlet ports, uncondensed vapor outlet ports, condensate outlet ports and coolant inlets which are fastened in tube plates and coolant outlets. One of the tube plates is located on the vapor supply side and the other of the tube plates rests on the discharge side of the non-condensed vapor and condensate. Upper and lower transverse baffles are then provided in the space between the tubesheets to direct the vapor flow during condensation. The downside of these devices is that for the next do _? For smoothing the condensate, it is necessary to use an additional apparatus, which entails demands in terms of space and higher production costs.

These drawbacks have been remedied by a partial condenser according to the invention, characterized in that a longitudinal horizontal baffle is placed in the space between the tubesheet, which at one end coincides with the tubesheet resting on the outlet side of the uncondensed vapor and condensate. Flow channels are provided in the lower baffles of the transverse baffles to allow the condensate to flow over the upper surface of the longitudinal horizontal baffle. Furthermore, in the lower baffles of the transverse obstacles, flow channels are provided in the space below the longitudinal horizontal baffle, allowing the flow of the cooled condensate to flow. The condensate outlet orifices extend from below the longitudinal horizontal partition, which preferably has longer edges (resting along the condenser container) included upwards. This makes it possible to advantageously maintain the condensate level on the upper surface of the longitudinal horizontal baffle below which the baffle baffles are located, provided with a flow channel for the flow of the cooled condensate. In order to cool the condensate more efficiently, the flow channels in the lower baffles of the transverse baffles and in the baffle baffles are provided in the lower part of the space and below the longitudinal horizontal baffle, alternating on one side of each of the lower baffle baffles and baffle baffles. In order to maintain the level of the cooled condensate in the space of the cooling tubes, overflow partitions are placed in front of the condensate outlet ports.

^The advantages of the invention are that it allows the condensate to cool to the desired temperature in one apparatus. This saves space, production costs and energy.

¹ is a schematic longitudinal cross-sectional view of the capacitor, FIG. 2 is a cross-sectional view in the " B-B " plane of FIG. 1, and FIG. 3 is a cross-sectional view of the " A " “A” in Figure 1.

The partial condenser is formed by a cylindrical shell 17 of the vessel, in which the inlet port 12 of the vapor inlet is provided on one side and the inlet port 10 of the non-condensed vapor outlet is provided in the upper part. Inside the condensate vessel are located upper baffle transverse baffles 2 and lower baffle baffles 3. On the vapor inlet side of the vessel there is a tubesheet 9 in which one end is fixed cooling tubes 1, which are fixed at the opposite end in a tubesheet 19 resting on the side the condensate outlet 10 and the condensate outlet 10. The lids 18 are located downstream of the tubesheets 9, 19, one of which covers the coolant inlet 13 and the coolant outlet 14 of the condenser outlet. In the lower half of the condenser vessel there is a longitudinal horizontal partition 5, which is attached at one end to the tube sheet 19 and is arranged at the other end so as to form a gap 22 between this partition 5 and the tube sheet 9. Longitudinal edges 8 are included upwards in order to maintain the condensate level on the top surface of the longitudinal horizontal partition 5 at a desired height. This arrangement is shown in FIGS. 2 and 3. By this arrangement, the inner space of the condenser between the tubesheets 9, 19 is divided into a condensation part 6 and a space 7, below the longitudinal horizontal partition 5 where the condensate is cooled. The lower baffle transverse baffles 3 extend over the longitudinal horizontal baffle 5 and are provided at the point of contact with the top surface of the baffle 5 with channels 15 as shown in Fig. 2. The channels 15 serve to allow condensate to flow through the upper surface of the horizontal baffle 5. Furthermore, in the space 7 below the longitudinal horizontal partition 5, there are set up partition walls

4. As shown on the tobr. 2, in the lower part of the space 7, flow channels 20 are provided alternately on one side in the lower transverse baffles 3 and flow channels 21 are provided in the adjusting baffles 4. As shown in FIG. 16, which serves to ensure the level of the cooled condensate to the level of cooling

782134 tubes 1 located in the space 7 below the longitudinal horizontal partition 5.

The vapors enter the condenser through the inlet throat 12a and are further directed by the upper transverse baffles 3, forming condensate flowing onto the top surface of the longitudinal horizontal baffle 5 from which the condensate flows through a gap formed between the longitudinal baffle 5 and the tube sheet 9 into space 7 5. In the space 7, the condensate is concentrated up to the level of the overflow partition IB, where the overflow condensate flows through this partition IB through the outlet orifices 11 from the condenser.

(B)

The movement of the cooled condensate in the space 7 is enabled by channels 20 in the lower baffles of the transverse baffles 3 and channels 21 in the baffles 4.

Uncondensed vapor exits the condenser through the outlet throat 10. The refrigerant is supplied to the condenser through the outlet throat 13, flows through the cooling tubes 1 through four strokes through the apparatus and exits through the throat 14. In this case three draws of the cooling tubes 1 are located in space 8 above the longitudinal horizontal partition 5 and one thrust is located in the space 7 below the longitudinal horizontal partition 5.

Claims (5)

Partial condenser, comprising in particular a vessel with tubesheets and horizontally positioned cooling tubes, one of the tubesheets being on the vapor inlet side and the other tubesheet being on the uncompensated vapor and condensate outlet side, the vessel having a vapor inlet neck, a vapor neck a non-condensed vapor outlet, a condensate outlet and a coolant inlet and outlet, with the upper baffles and the lower baffles lying in the space between the tubesheets, characterized in that a longitudinal horizontal baffle ( 5), at one end coinciding with the tube sheet (19), resting on the outlet side of the non-condensed vapor and condensate, the flow channels in the lower baffles of the transverse baffles (3) in the spaces (6, 7) above and below the longitudinal baffle (5) (15, 20) and the condensate discharge ports (11) exit from the space (7) below the longitudinal horizontal partition (5). vynalezu Partial capacitor according to claim 1, characterized in that the longitudinal horizontal partition (5) directs the edge upwards. Partial capacitor according to claim 1, characterized in that adjusting baffles (4) provided with a flow channel (21) are located below the longitudinal horizontal partition (5). Partial condenser according to Claims 1 and 3, characterized in that the flow channels (20) below the horizontal longitudinal baffle in the lower baffles of the transverse baffles (3) and the flow channels (21) in the baffle baffles (4) are provided in the lower part of the space (7) below the longitudinal horizontal baffle (5), alternately on one side of each of the lower baffles of the transverse baffles (3) and the adjusting baffles (4). Partial capacitor according to claim 1, characterized in that overflow bars (16) are arranged in front of the condensate outlet ports (11).