RU2012104027A - HEAT EXCHANGE SYSTEM, AND ALSO METHOD OF OPERATION OF HEAT EXCHANGE SYSTEM - Google Patents

Abstract

1. A heat exchange system (1), which includes a heat exchanger (2) equipped with a flow channel (210) located in the flow segment (21), and for the exchange of heat between the transport fluid (3) and flowing through the flow channel (210) into operating condition by the thermal agent (4), the transport fluid (3) can be brought into flow contact with the heat exchanger (2) through the inlet surface (201) and again removed from it through the outlet surface (202), characterized in that to determine the degree (V ) contamination of the heat exchanger (2), a contamination sensor (5) is provided in the form of a pressure sensor (5) and / or a speed sensor (5), with which the transport index (TK) can be determined, which is characteristic of the flow of the transport fluid (3) from the inlet surface (201) through the outlet surface (202). 2. Heat exchange system according to claim 1, wherein a plate (6) is provided on the flow element (21) to increase the rate of heat exchange. The heat exchange system according to claim 2, wherein the plate (6) is provided with a flow hole (61), in particular, in the form of a louver hole (61). Heat exchange system according to one of claims 1 to 3, wherein at least one heat exchanger (2) is a heat exchanger (2) with microchannels. Heat exchange system according to claim 1, wherein at least one heat exchanger (2) is a tubular heat exchanger (2). Heat exchange system according to claim 1, wherein a transport device (7), in particular a fan (7), is provided for transporting the transport fluid (3) from the inlet surface (201) to the outlet surface (202). A heat exchange system according to claim 1, wherein the (TK) index is transport

Claims (15)

1. A heat exchange system (1), including a heat exchanger (2), equipped with a flow channel (210) located in the flow segment (21), and for exchanging heat between the transport fluid (3) and flowing through the flow channel (210) into operating condition of the thermal agent (4), the transport fluid (3) through the inlet surface (201) can be brought into flowing contact with the heat exchanger (2) and again removed from it through the outlet surface (202), characterized in that for determining the degree of (V ) heat exchanger fouling (2) an impurity sensor (5) is provided in the form of a pressure sensor (5) and / or a speed sensor (5), with which a transport index (TK) can be determined, which is characteristic for the flow of the transport fluid (3) from the inlet surface (201) through the outlet surface (202). 2. The heat exchange system according to claim 1, wherein to increase the heat transfer rate, a plate (6) is provided on the flow element (21). 3. The heat exchange system according to claim 2, wherein a flow hole (61) is provided on the plate (6), in particular in the form of a louvre hole (61). 4. The heat exchange system according to one of claims 1 to 3, wherein at least one heat exchanger (2) is a heat exchanger (2) with microchannels. 5. The heat exchange system according to claim 1, wherein at least one heat exchanger (2) is a tubular heat exchanger (2). 6. The heat exchange system according to claim 1, wherein a conveying device (7), in particular a fan (7), is provided for transporting the transport fluid (3) from the inlet surface (201) to the outlet surface (202). 7. The heat exchange system according to claim 1, wherein the transport index (TK) is the pressure of the transport fluid (3), in particular, the pressure loss (ΔP) between the inlet surface (201) and the outlet surface (202) of the heat exchanger (2) . 8. The heat exchange system according to claim 1, wherein the transport index (TK) is the flow rate of the transport fluid (3). 9. The heat exchange system according to claim 1, wherein for controlling and / or regulating and / or for recording data of an operating parameter or a state parameter of a heat exchange system, a control unit, in particular a control unit with a data processing system, is connected via a signal to a heat exchanger sensor (2), and / or with a transportation device (7), and / or with a pollution sensor (5), and / or with a heat engine. 10. The heat exchange system according to claim 1, wherein the heat exchange system is a cooler, in particular a cooler for a vehicle, in particular for a land vehicle, for an air vehicle or for a water vehicle, or a cooler, condenser or evaporator for a mobile or a stationary heating system, a cooling system or an air conditioning system, in particular a cooling device for a machine, data processing unit or for a building. 11. The method of operation of the heat exchange system (1) according to one of claims 1 to 10, in which the transportation indicator (TK) is measured and the degree of (V) pollution of the heat exchanger (2) is determined by this transportation indicator (TK). 12. The method according to claim 11, wherein the pressure drop (ΔP) is determined by the transportation index (TK). 13. The method according to claim 11 or 12, in which the decrease in productivity (PW) of the heat transfer of the heat exchanger (2) is determined by the loss (∆P) of pressure. 14. The method according to claim 11, in which the control and / or regulation of the performance of the conveying device (7), in particular, the fan speed (7), is carried out depending on the degree of contamination of the heat exchanger (2) and / or in which the moment is automatically determined time for regular maintenance, depending on the degree of contamination. 15. The method according to claim 11, in which the control of operating data and / or status data of the heat exchange system (1), and / or control, and / or regulation of the heat exchange system (1) is carried out online, in particular through the Intranet and / or the Internet, through a central control center.