PL79663B2 - - Google Patents

Description

Priority: Application announced: 04/01/1974 Patent description was published: 09/10/1975 79663 KI. 36c, 5 MKP F24d3 / 04 Inventors: Tadeusz Chlipalski Authorized by a temporary patent: Politechnika Slaska im. W. Pstrowskiego, Gliwice (Poland) System of connections of heating circuits powered by an external heating medium. The subject of the invention is a direct connection system of heating circuits powered by an external heating medium. The connection system is used in supplying heat to buildings from a district heating network, taking into account the need to adapt the parameters of the network medium to the nature of heating devices in buildings. The previously known systems of heating circuits, consisting of an exchanger, receivers and connecting them pipes, there are two independent circuits: primary, network and secondary for internal installations, while the secondary circuits require independent sources of circulation energy, e.g. a pump unit. The disadvantage of these systems is the unfavorable heat exchange system between two circuits, which on the one hand reduces the network capacity by incomplete the use of the available temperature drop of the network water on the other hand - limitation of the average temperature difference through the exchanger wall. The essence of the invention is the supply system of heating installations or their groups from the district heating network in such a way that the supplied medium passes through the primary side? heat exchanger, supplying the first receiver, and then cooled, it returns to the exchanger, passing through its secondary side where it recovers heat, goes to the second receiver with a temperature appropriate for it, and after cooling it returns to the network. In this two-loop system, the aim of the invention has been achieved, which, apart from eliminating the redundant pump systems, is to reduce the temperature of the network water to the level corresponding to the needs of individual receivers, while the water temperatures at both outputs from the exchanger may be different. The results resulting from the use of the system according to the invention consist, apart from the abovementioned, in a radical limitation of the heatable surface of the exchanger due to the fact that its secondary side receives only the amount of heat on the primary side that is needed to cool the high-temperature network water to the supply temperature of the first consumer. The second receiver is already supplied with the heat recovered in the exchanger. Another reason for the reduction of the heatable surface is a much larger, in the system according to the invention, the average temperature difference across the exchanger's diaphragm than is possible in the previously known system. Fig. 2 - a three-circuit system, and Fig. 3 - a system with by-passes. 2 79663 The heating medium passes from the external network 4 through the conduit 5 to the exchanger 1, then via the conduit 6 to the first receiver 2, and returns via conduit 7 to the exchanger 1 (secondary side), from which through the line 8 to the second receiver, returning through the line 9 back to the network 4. In this case, the network water with a temperature of e.g. 150 ° C is cooled in the exchanger to the temperature appropriate for the first receiver, e.g. 1 ° C in the receiver cooled, e.g. to 70 ° C, then, passing through the exchanger, back heated to 110 C, i.e. to the supply temperature of the second receiver and cooled in it to 70 CW in case of y the first receiver is an object requiring a higher supply temperature, e.g. 125 ° C, the exchanger exchanges less heat, according to the temperature difference (150 - 125 °) and after cooling in the receiver 2 to 70 ° C, the water is heated on the secondary side exchanger with the same temperature difference, i.e. up to 95 ° C, from which it is supplied to the second receiver 3, which is a municipal facility. In a three-loop system, the second outlet in the exchanger 1 is connected by a conduit 8 to the second-stage exchanger 10, which in turn supplies the receivers 3a and 3b in two loops. In a similar way, four loops can be formed when both outputs of the main exchanger 1 are connected to the second stage exchangers. Fig. 3 shows the system according to Fig. changing the temperature profile in both passages of the exchanger and changing the temperature of the heating water at both exits of the exchanger 1, making it possible to adapt to the different heat needs of individual consumers. The bypass circuits are given in various possible variants of the bleed, selected by means of valves 12. PL EN

Claims (3)

1. Patent claims 1. Connection system of heating circuits filled with an external heating medium, consisting of an exchanger and receivers, characterized in that the first outlet of the exchanger (1) is connected by wires (6) to the first receiver (2), the output of which is also the input to the secondary side of the exchanger (1), while the second outlet from the exchanger (1) is connected by a conduit (8) to the second receiver (3). 2. Connection system according to claim The method of claim 1, characterized in that each of the outlet pipes from the exchanger (1) is an input to the exchanger of the second row (10) and constitutes an independent arrangement of the next row. 3. Connection system according to claim 1 and 2, characterized in that between the lines (5) and (8), (6) and (8), or (7) and (8), there are circulation lines (11) bypassing the exchanger (1) or the receiver (2). ), can be moved by valves (12). a ^ Ljl jL jL ¥? jL Fig. I. A. t ^ AAk ^ F jL ~ Y V- Fig. 2. A. Fig. 3. Work. Typographer. UP PRL. residing 2994/75 edition 120 + 18 Price 10 PLN PL PL