DE102008045736A1 - Return flow condenser has heat exchanger block, return passage and refrigerant passage, where upper and lateral sides of pressure reservoir are enclosed by heat exchanger block - Google Patents

Abstract

The return flow condenser has a heat exchanger block (1), a return passage and a refrigerant passage. An upper side and a lateral side of a pressure reservoir (2) are enclosed by the heat exchanger block. A unit is provided for draining liquid in the form of a ring gap around a passage opening. A gas passage opening has a form of a chimney with a chimney neck and chimney roof (14a) arranged over it.

Description

The The invention relates to a reflux condenser according to Preamble of claim 1.

Two basic types of flyback capacitors are known in the art. Either a heat exchanger block (or a plurality of heat exchanger blocks) is arranged in the interior of a pressure vessel, as z. In EP1189000 is shown, or the heat exchanger block is completed on all sides by headers, see, for. B. US 6128920 , The present invention relates to a reflux condenser in which at least one heat exchanger block is disposed inside a pressure vessel.

The Return passages of a reflux condenser steamed from below. The steam condenses when ascending partially in the return passages. The return passages are designed so that the condensed liquid is not entrained, but flows down. By the counterflow of vapor and liquid takes place in the Return passages take a rectification. The liquid, which exits at the lower end is low-volatility Enriched components, the top steam exiting is volatile Enriched components.

One Such reflux condenser (in the literature also partially as dephlegmator) can be used as a standalone separation unit be used. Alternatively, it is used as the top condenser of a separation column used and thus enhances their separation effect.

in the Refer to spatial terms used in the application such as "top", "bottom", "side", etc. always on the orientation of the reflux condenser during normal operation.

In the European patent application EP 1890100 Such a flyback capacitor according to the prior art will be described in more detail. The retrace capacitor described therein is located inside a pressure vessel, but still has a header. The return passages of the return condenser described here are not open to the space between the pressure vessel and the heat exchanger block, but communicate at its lower end with a header, which is arranged below the heat exchanger block and has a phase separator.

The Phase separator in the header allows liquid and steam below the return passages are effective from each other to separate. It prevents liquid from the Steam flow is entrained. In addition, can the space between pressure vessel and heat exchanger block be used for other purposes and another pressure have as the return passages.

The phase separator according to the in EP 1890100 described prior art has a bottom. The bottom has at least one gas passage opening, which is provided on its upper side with a border for damming liquid. The rising from the bottom and later entering the return passages steam flows over the gas passage opening at the dammed liquid over, without suffering a significant pressure loss and without entraining liquid droplets. The border prevents liquid from flowing into the gas passage opening. Preferably, the gas passage openings have a circular cross section and are surrounded by a cylinder jacket-shaped wall with a vertical axis of symmetry.

The from above from the return passages leaking fluid collects on the floor. The bottom plate is preferably just. The accumulated on the ground liquid is over a drain pipe separated from the incoming vapor stream discharged. This drain pipe can be in flow communication with a liquid distributor, which in the Return passages formed liquid on the Distributed substance section of a separation column, which is an ordered pack or contains a filler. alternative the drainpipe can open on a column bottom.

In The described prior art is also disclosed, the Gas passage opening with a cover, which in the distance to the ground is arranged to provide. This cover is covered doing at least a portion of the cross-sectional area of Gas passage opening. The cover should prevent liquid from the return passages enters the gas passage opening. The vertical distance the cover to the bottom or the upper edge of the border is chosen so that the steam without significant pressure loss can flow through it.

Of the present invention is based on the object, a reflux condenser of the type mentioned above in such a way that an alternative to the described prior art is formed.

The present object is achieved in that the means for the withdrawal of liquid in the form of an annular gap is designed around a gas passage opening and / or at least one gas passage opening in the form of a chimney consisting of Kaminhals and at least one above arranged Kamindach has.

By the withdrawal of the liquid according to the invention from the bottom via an annular gap at the gas passage opening a more compact construction of the phase separator is made possible. Instead of spatially separated gas passage openings and the trigger for the liquid enter one or more gas passage openings with a surrounding, Annular gap through which the liquid is drawn off the ground can be. Due to the inventive design the gas passage openings as chimneys with chimney neck and above it is a penetration, which from above flowing down from the reflux condenser, Liquid in the gas passages avoided. The inventive design of the gas passage openings as fireplaces with chimney neck and chimney gutter is both for separate Gas passage openings as well as for gas passage openings with a surrounding annular gap for the withdrawal of the liquid thought. The present invention thus provides an alternative to the prior art.

advantageously, the fireplace roof has the shape of a cone or a pyramid on, with the base of the cone or pyramid at least the base of the fireplace neck corresponds. In this embodiment the invention, the running down of the liquid from Kamindach significantly improved. Due to the size of the Base area of cone or pyramid will ensure that no liquid from the chimney gutter into the lower one Chimney neck dripped.

In Another embodiment of the invention are several fireplace roofs mounted above a chimney neck, with the lowest chimney roof at least the cross section of the chimney neck and at least has an opening. In this embodiment of the invention, where several fireplace roofs over a fireplace neck are arranged, the gas distribution is significantly improved. That from gas flowing downwards through the chimney neck either through the gap between Kaminhals and bottom Kamindach or through the gap between the lowest and the highest Kamindach in the phase separator. Because the lowest chimney roof has at least one opening, the gas can not only on the Between the chimney neck and the lowest chimney roof, but also over the space between the lowest chimney roof and next higher Kamindach. A downflow the liquid in the chimney neck can be prevented here in the at least the topmost Kamindach no opening or the openings of two over each other lying horizontal roofs each spatially offset are.

Prefers have the gas passage openings at their top one Border on.

With In particular, the present invention succeeds in providing an alternative to form the prior art. In the present invention can the outflow behavior of the gas as well as the space requirement of the Gas passage openings optimally to the respective conditions be adjusted.

in the The invention is based on the illustrated in the figures Embodiments explained in more detail become:

It demonstrate:

1 A longitudinal section through a reflux condenser in a first embodiment of the invention

2 A cross section in the plane AA the 1

3 . 4 and 5 Three different embodiments of fireplace roofs and

6 an embodiment of the invention with annular gap.

1 shows a longitudinal section through a flyback capacitor in an embodiment of the invention, 2 the cross section in the plane AA the 1 , The heat exchanger block 1 is inside a pressure vessel 2 arranged. It is designed as a soldered aluminum plate heat exchanger and has alternately return passages and refrigerant passages, which are not shown in detail.

The refrigerant passages function as a circulation evaporator in the embodiment. A liquid refrigerant is via a nozzle 17 in the gap 3 between pressure vessel 2 and heat exchanger block 1 introduced and forms there a liquid bath. Liquid flows through the side openings of the refrigerant passages 18 from the bath into the refrigerant passages. Due to the thermosiphon effect, a two-phase mixture in the refrigerant passages is led upwards and occurs at the top of the heat exchanger block 1 from the refrigerant passages open there. Gaseous refrigerant 19 is via a gas line 20 withdrawn, liquid remaining refrigerant 21 falls back into the liquid bath.

The return passages are open at their lower end and communicate with a header located below the heat exchanger block 1 is arranged. The header has four rectangular side walls 22 . 23 . 24 . 25 and a floor 12 on. The Base of the soil 12 forms the bottom of a phase separator and has four gas passage openings in this embodiment 4 . 5 . 6 . 7 on. The gas passage openings in this embodiment of the invention are on their upper side, each with a border 16 to accumulate liquid. The border prevents accumulated liquid on the ground in the gas passage opening. About a drainpipe 8th In this embodiment of the invention, the accumulated liquid can flow off. The gas passage openings 4 . 5 . 6 . 7 are designed as chimneys in this embodiment of the invention. Each of the gas passage openings 4 . 5 . 6 . 7 has a flat fireplace roof 14a on. The base of the soil 12 represents the central area of a floor slab, its peripheral area 26 the central area encloses and the pressure vessel 2 closes down.

The reflux condenser is arranged directly on the top of a separation column in this embodiment. The column wall is in 1 indicated by dashed lines. Steam from the top of the column flows over the gas passage openings 4 . 5 . 6 . 7 , is from the fireplace roofs 14a deflected and thus flows over the space between Kaminhals 13 and roof tile 14a finally in the return passages. Liquid formed in the return passages exits from the lower end, possibly impinging on the chimney roofs 14a , gets on the floor 12 accumulated and finally flows through the drainpipe 8th from. The gaseous portion is topped by one or more side headers 10 and a gas exhaust pipe 11 deducted from the return passages.

3 shows an example of a longitudinal section through the gas passage opening 4 , The gas passage opening 4 is in this embodiment as a fireplace with chimney neck 13 and roof tile 14a designed. Above the ground 12 the gas passage opening has a border 16 on. Through the fireplace roof 14a Prevents liquid flowing down from above from entering directly into the gas passage opening. This embodiment of the invention with a flat fireplace roof 14a represents the simplest construction. The fireplace roof 14a can be optionally provided with drip edges (not shown).

4 shows an alternative embodiment of the gas passage opening 4 as a fireplace. In this embodiment of the invention, the gas passage opening 4 two fireplace roofs 14b1 . 14b2 on. The chimney neck 13 is above the ground 12 with a border 16 Mistake. The lower of the two Kamindächer 14b1 has a central opening 15 with border 27 on. In this embodiment of the invention, the gas through the gap between Kaminhals 13 , Border 16 and the lowest chimney roof 14b1 as well as over the gap between the two chimney roofs 14b1 and 14b2 flow into the phase separator. This embodiment of the invention ensures a more uniform distribution of the gas below the reflux condenser.

5 shows a further embodiment of the gas passage opening 4 as a fireplace with a chimney neck 13 , Border 16 and roof tile 14c , The fireplace roof 14c is designed here cone-shaped. In this embodiment of the invention, an unhindered and improved downflow of the liquid from the chimney gutter 14c guaranteed.

6 shows a further embodiment of the invention. In this embodiment of the invention, the gas passage opening 4 with an annular gap around it 9 Mistake. In this embodiment of the invention, the liquid flows from the bottom 12 in the annular gap 9 and from there on the opening 9a subtracted from. In this embodiment of the invention, the liquid withdrawal 8th in the ground 12 omitted. The liquid can in this embodiment directly at the gas passage openings, 4 . 5 . 6 . 7 subtracted from. The liquid withdrawal through the annular gap shown in this embodiment 9 can with each embodiment of the gas passage opening as a chimney, as in the 3 to 5 shown to be combined.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - EP 1189000 [0002]
• - US 6128920 [0002]
• - EP 1890100 [0006, 0008]

Claims (4)

Return condenser with at least a) a heat exchanger block ( 1 ) having return passages and refrigerant passages, b) with a pressure vessel ( 2 ), the heat exchanger block ( 1 ) encloses above and laterally, wherein between the heat exchanger block ( 1 ) and the pressure vessel wall ( 2 ) a lateral gap ( 3 ), c) with means ( 4 . 5 . 6 . 7 ) for introducing steam into the lower region of the return passages, d) with means ( 8th . 9 ) for discharging liquid from the lower region of the return passages, e) with means ( 10 . 11 f) with means for introducing refrigerant into the refrigerant passages, and g) with a header below the heat exchanger block (FIG. 1 ), wherein the header has a phase separator and is in flow communication with the return passages, h) wherein the phase separator means a bottom ( 12 ), which at least one gas passage opening ( 4 . 5 . 6 . 7 ) and a means ( 8th . 9 ) for the withdrawal of liquid, characterized in that i) the agent ( 9 ) is designed for the withdrawal of liquid in the form of an annular gap around a gas passage opening and / or j) at least one gas passage opening ( 4 . 5 . 6 . 7 ) the shape of a fireplace consisting of fireplace neck ( 13 ) and at least one overhead cowl roof ( 14a . 14b1 . 14b2 . 14c ) having. Recirculation capacitor according to claim 1, characterized in that the chimney cowl ( 14b ) has the shape of a cone or a pyramid, wherein the base of the cone or the pyramid at least the base of the chimney neck ( 13 ) corresponds. Recirculation condenser according to claim 1 or 2, characterized in that several fireplace roofs ( 14b1 . 14b2 ) above a fireplace neck ( 13 ) are mounted, wherein at least the lowest Kamindach ( 14b1 ) the cross section of the chimney neck ( 13 ) and at least one opening ( 15 ) having. Return condenser according to one of claims 1 to 3, characterized in that the gas passage opening ( 4 . 5 . 6 . 7 ) at its top a border ( 16 ) having.