Disclosed herein is a method and apparatus for improving the heating capacity of steam-heated hot plates, and in particular, to steam-heated hot plates used in the corrugating industry. One or more separators and thermocompressors are added to the output of the hot plates to separate blow through st
Disclosed herein is a method and apparatus for improving the heating capacity of steam-heated hot plates, and in particular, to steam-heated hot plates used in the corrugating industry. One or more separators and thermocompressors are added to the output of the hot plates to separate blow through steam from condensate and pressurize and inject the steam back into the hot plates.
대표청구항▼
1. An apparatus for transferring heat to a steam heated device comprising: a single high pressure steam header that for receiving and supplying steam from a steam boiler;a steam heating device header;a steam heated device that receives steam from the steam heating device header and discharges circul
1. An apparatus for transferring heat to a steam heated device comprising: a single high pressure steam header that for receiving and supplying steam from a steam boiler;a steam heating device header;a steam heated device that receives steam from the steam heating device header and discharges circulated steam and condensate;a separator tank in communication with the steam heated device, wherein the separator tank receives the circulated steam and condensate from the steam heated device and separates the circulated steam from the condensate;a thermocompressor in communication with the separator tank and the high pressure steam header, wherein the thermocompressor receives the circulated steam from the separator tank, blends the circulated steam with the steam from the high pressure steam header, and feeds the blended steam to the steam heating device header, and wherein the thermocompressor is capable of maintaining a flow of steam through the steam heated device at a ratio of steam to steam condensate of at least 20:1 by volume;a first blow down valve in communication with the high pressure header for controlling the addition of steam to the circulated steam from the separator tank prior to reaching the thermocompressor; anda blow down line in communication with the separator tank for purging non-condensable gases and having a second blow down valve for selecting between directing the non-condensable gases to vent to atmosphere or combining with the circulated steam prior to reaching the thermocompressor. 2. The apparatus of claim 1, wherein the thermocompressor is capable of maintaining the flow of the steam through the steam heated device at a ratio of steam to steam condensate of at least 30:1 by volume. 3. The apparatus of claim 1, wherein the thermocompressor is capable of maintaining the flow of the steam through the steam heated device at a rate of at least 0.20 times mass flow rate of steam condensate. 4. The apparatus of claim 1, wherein the thermocompressor is capable of maintaining a fixed pressure in the steam heating device header. 5. The apparatus of claim 1, wherein the thermocompressor is capable of maintaining a fixed differential pressure between the steam heating device header and the discharge from the steam heated device. 6. The apparatus of claim 1, further comprising: a thermostatic trap in communication with the blow down line to purge non-condensable gases. 7. The apparatus of claim 1, further comprising: a controller capable of modulating an actuator on the thermocompressor; and a transducer in communication with the controller to assist with modulating the actuator of the thermocompressor, wherein the transducer measures steam pressure. 8. The apparatus of claim 1, wherein the steam heated device is a steam chest. 9. The apparatus of claim 1, wherein the steam heated device is a steam heated hot plate. 10. An apparatus for transferring heat to a steam heated device comprising: a single high pressure steam header that receives and supplies steam from a steam boiler;a steam heating device header;a steam heated device that receives steam from the steam heating device header and discharges circulated steam and condensate;a separator tank in communication with the steam heated device, wherein the separator tank receives the circulated steam and condensate from the steam heated device and separates the circulated steam from the steam condensate; anda thermocompressor in communication with the separator tank and the high pressure steam header;a recirculation line for communicating circulated steam from the separator tank to the thermocompressor, wherein the thermocompressor receives the circulated steam, blends the circulated steam with the steam from the high pressure steam header, and feeds the blended steam to the steam heating device header, and wherein the thermocompressor is capable of maintaining a flow of steam through the steam heated device at a ratio of steam to steam condensate of at least 20:1 by volume;a first blow down valve in communication with the high pressure header for controlling the addition of steam to the circulated steam from the separator tank prior to reaching the thermocompressor;a blow down line in communication with the separator tank for purging non-condensable gases and having a second blow down valve for selecting between directing the non-condensable gases to vent to atmosphere or combining with the circulated steam prior to reaching the thermocompressor; anda steam pressure control valve for bypassing steam from the high pressure steam header to the steam heating device header, wherein the steam pressure control valve is moveable between a first position, where the steam is directed to the high pressure header, and a second position, where the steam is directed to the thermocompressor. 11. The apparatus of claim 10, wherein the thermocompressor is capable of maintaining the flow of steam through the steam heated device at a ratio of steam to steam condensate of at least 30:1 by volume. 12. The apparatus of claim 10, wherein the thermocompressor is capable of maintaining the flow of steam through the steam heated device at a rate of at least 0.20 times mass flow rate of steam condensate. 13. The apparatus of claim 10, wherein the thermocompressor is capable of maintaining a fixed pressure in the steam heating device header. 14. The apparatus of claim 10, wherein the thermocompressor is capable of maintaining a fixed differential pressure between the steam heating device header and the discharge from the steam heated device. 15. The apparatus of claim 10, wherein the blow down line includes a thermostatic trap to assist with the purge of non-condensable gases. 16. The apparatus of claim 10, further comprising: a controller capable of modulating an actuator on the thermocompressor; anda transducer in communication with the controller to assist with the modulating of the actuator of the thermocompressor, wherein the transducer measures steam pressure. 17. The apparatus of claim 10, wherein the steam heated device is a steam chest. 18. The apparatus of claim 10, wherein the steam heated device is a steam heated hot plate.
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