Dynamic heating media conditioning for heat transfer optimization and fouling control

What is claimed is: 1. An automated control loop for dynamically adjusting a temperature of wet steam to increase heat transfer and decrease fouling in a reboiler of a distillation column for distilling a petrochemical, the control loop comprising: logic to control a combining of condensed water with dry steam to produce the wet steam, which is input to the reboiler in order to transfer heat to the petrochemical while being converted to the condensed water; logic to monitor a pressure of the produced wet steam; logic to set a target temperature for the produced wet steam based on the monitored pressure; and logic to monitor the temperature of the produced wet steam, wherein the logic to control the combining includes logic to adjust the monitored temperature, in response to the monitored temperature deviating from the set target temperature by at least a threshold value, wherein the logic to adjust adjusts a proportion of the condensed water in the produced wet steam in order to adjust the monitored temperature so as to deviate from the set target temperature by less than the threshold value, and wherein the logic to set the target temperature includes logic to vary the target temperature directly with the monitored pressure to dynamically adjust the temperature of the produced wet steam in order to increase the heat transfer and decrease the fouling in the reboiler. 2. The automated control loop of claim 1 , wherein the logic to set the target temperature includes logic to determine a saturation temperature of the produced wet steam from the monitored pressure, and to use the determined saturation temperature to set the target temperature. 3. The automated control loop of claim 2 , wherein the logic to set the target temperature sets the target temperature to the determined saturation temperature plus a fixed amount. 4. The automated control loop of claim 3 , wherein the fixed amount is 5° F. 5. The automated control loop of claim 1 , further comprising logic to determine if the monitored pressure is within acceptable bounds, wherein the logic to set the target temperature comprises: logic to vary the target temperature directly with the monitored pressure when the monitored pressure is determined to be within the acceptable bounds; and logic to not vary the target temperature directly with the monitored pressure when the monitored pressure is determined to be outside the acceptable bounds. 6. The automated control loop of claim 5 , wherein the logic to not vary sets the target temperature to a predetermined amount. 7. The automated control loop of claim 6 , wherein the predetermined amount is 325° F. 8. The automated control loop of claim 5 , further comprising logic to generate an alert when the monitored pressure is determined to be outside the acceptable bounds for a predetermined period of time. 9. The automated control loop of claim 1 , wherein the logic to adjust adjusts a control valve for controlling a return flow of the condensed water to combine with the dry steam, based on the deviation of the monitored temperature from the set target temperature. 10. A control circuit to dynamically adjust a temperature of wet steam to increase heat transfer and decrease fouling in a reboiler of a distillation column for distilling a petrochemical, the control circuit comprising: logic to control a combining of condensed water with dry steam to produce the wet steam, which is input to the reboiler in order to transfer heat to the petrochemical while being converted to the condensed water; logic to monitor a pressure of the produced wet steam; logic to set a target temperature for the produced wet steam based on the monitored pressure; and logic to monitor the temperature of the produced wet steam, wherein the logic to control the combining comprises logic to, in response to the monitored temperature deviating from the set target temperature by at least a threshold value, adjust a proportion of the condensed water in the produced wet steam in order to adjust the monitored temperature so as to deviate from the set target temperature by less than the threshold value, and wherein the logic to set the target temperature comprises logic to vary the target temperature directly with the monitored pressure to dynamically adjust the temperature of the produced wet steam in order to increase the heat transfer and decrease the fouling in the reboiler. 11. The control circuit of claim 10 , wherein the logic to set the target temperature comprises logic to determine the saturation temperature of the produced wet steam from the monitored pressure, and logic to use the determined saturation temperature to set the target temperature. 12. The control circuit of claim 10 , further comprising logic to determine if the monitored pressure is within acceptable bounds, wherein the logic to set the target temperature comprises: logic to vary the target temperature directly with the monitored pressure when the monitored pressure is determined to be within the acceptable bounds; and logic to not vary the target temperature directly with the monitored pressure when the monitored pressure is determined to be outside the acceptable bounds. 13. The control circuit of claim 12 , further comprising logic to generate an alert when the monitored pressure is determined to be outside the acceptable bounds for a predetermined period of time. 14. The control circuit of claim 10 , wherein the logic to adjust the proportion of the condensed water comprises logic to adjust a control valve controlling a return flow of the condensed water combined with the dry steam, based on the deviation of the monitored temperature from the set target temperature. 15. A non-transitory computer readable medium (CRM) having computer instructions stored therein that, when executed by a processing circuit, cause the processing circuit to carry out an automated process for dynamically adjusting a temperature of wet steam to increase heat transfer and decrease fouling in a reboiler of a distillation column for distilling a petrochemical, the process comprising: controlling a combining of condensed water with dry steam to produce the wet steam, which is input to the reboiler in order to transfer heat to the petrochemical while being converted to the condensed water; monitoring a pressure of the produced wet steam; setting a target temperature for the produced wet steam based on the monitored pressure; and monitoring the temperature of the produced wet steam, wherein controlling the combining comprises, in response to the monitored temperature deviating from the set target temperature by at least a threshold value, adjusting a proportion of the condensed water in the produced wet steam in order to adjust the monitored temperature so as to deviate from the set target temperature by less than the threshold value, and wherein setting the target temperature comprises varying the target temperature directly with the monitored pressure to dynamically adjust the temperature of the produced wet steam in order to increase the heat transfer and decrease the fouling in the reboiler. 16. The non-transitory CRM of claim 15 , wherein setting the target temperature comprises determining the saturation temperature of the produced wet steam from the monitored pressure, and using the determined saturation temperature to set the target temperature. 17. The non-transitory CRM of claim 15 , wherein the process further comprises determining if the monitored pressure is within acceptable bounds, and setting the target temperature comprises: varying