Food container induction heating system having power based microbial lethality monitoring
First Claim
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1. An induction heating system configured to heat a metal food can using induction heating comprising:
- an induction heating coil generating an alternating magnetic field;
a hermetically sealed metal can positioned within the magnetic field generated by the induction coil, the sealed metal can including a food product within the sealed metal can, the magnetic field causing resistive heating of the metal of the sealed metal can;
a temperature sensing element located within the hermetically sealed can configured to detect the temperature of the food product during heating;
a power monitoring device configured to detect the power delivered to the induction heating coil; and
a control system in communication with the temperature sensing element and the power monitoring device, the control system configured to store data indicative of the temperature of the food product detected by the temperature sensing element and to store data indicative of the power delivered to the induction heating coil detected by the power monitoring device, wherein the control system is configured to determine a relationship between power delivered to the induction heating coil and the temperature of the food product within the sealed metal can;
wherein the control system is configured to determine the amount of energy delivered into the food product of the sealed metal can based on the data indicative of the power delivered to the induction heating coil, and wherein the determined relationship is a relationship between the amount of energy delivered into the food product of the sealed can and the temperature of the food product within the sealed metal can.
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Abstract
Induction heating systems for metal food cans configured to deliver sufficient heat into the can to sterilize the food within the can are provided. The heating system includes an induction coil and a control system. The control system is configured to monitor and control heating of sealed food cans during induction heating and to control and/or confirm various aspects of can heating during induction heating.
99 Citations
14 Claims
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1. An induction heating system configured to heat a metal food can using induction heating comprising:
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an induction heating coil generating an alternating magnetic field; a hermetically sealed metal can positioned within the magnetic field generated by the induction coil, the sealed metal can including a food product within the sealed metal can, the magnetic field causing resistive heating of the metal of the sealed metal can; a temperature sensing element located within the hermetically sealed can configured to detect the temperature of the food product during heating; a power monitoring device configured to detect the power delivered to the induction heating coil; and a control system in communication with the temperature sensing element and the power monitoring device, the control system configured to store data indicative of the temperature of the food product detected by the temperature sensing element and to store data indicative of the power delivered to the induction heating coil detected by the power monitoring device, wherein the control system is configured to determine a relationship between power delivered to the induction heating coil and the temperature of the food product within the sealed metal can; wherein the control system is configured to determine the amount of energy delivered into the food product of the sealed metal can based on the data indicative of the power delivered to the induction heating coil, and wherein the determined relationship is a relationship between the amount of energy delivered into the food product of the sealed can and the temperature of the food product within the sealed metal can. - View Dependent Claims (2, 3)
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4. An induction heating system configured to heat a metal food can using induction heating comprising:
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an induction heating coil generating an alternating magnetic field; a hermetically sealed metal can positioned within the magnetic field generated by the induction coil, the sealed metal can including a food product within the sealed metal can, the magnetic field causing resistive heating of the metal of the sealed metal can; a temperature sensing element located within the hermetically sealed can configured to detect the temperature of the food product during heating; a power monitoring device configured to detect the power delivered to the induction heating coil; a control system in communication with the temperature sensing element and the power monitoring device, the control system configured to store data indicative of the temperature of the food product detected by the temperature sensing element and to store data indicative of the power delivered to the induction heating coil detected by the power monitoring device, wherein the control system is configured to determine a relationship between power delivered to the induction heating coil and the temperature of the food product within the sealed metal can; and a second temperature sensor configured to detect the temperature of a surface of the can; wherein the control system is in communication with the second temperature sensor and is configured to store data indicative of the temperature of the surface of the food can detected by the second temperature sensor, wherein the control system is configured to determine a relationship between the temperature of the surface of the can and the temperature of the food product within the can. - View Dependent Claims (5)
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6. An induction heating system configured to heat a metal food can comprising:
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an induction heating coil generating an alternating magnetic field; a hermetically sealed metal can positioned within the magnetic field generated by the induction coil, the sealed metal can including a food product within the sealed metal can, the magnetic field causing resistive heating of the metal of the sealed metal can; an electrical power supply delivering power to the induction heating coil; a power monitoring device electrically coupled to the induction heating coil configured to generate a signal indicative of the power delivered to the induction heating coil by the electrical power supply; and a control system in communication with the power monitoring device, the control system configured to store power data based upon the signal indicative of the power delivered to the induction heating coil by the electrical power supply generated by the power monitoring device, wherein the control system is configured to determine an amount of energy delivered to the food product within the sealed metal can based upon the power data and based upon efficiency data indicative of the efficiency of energy transfer from the induction coil to the food product within the sealed metal can. - View Dependent Claims (7)
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8. An induction heating system configured to heat and substantially sterilize a metal food can using induction heating comprising:
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an induction heating coil generating an alternating magnetic field; a hermetically sealed metal can positioned within the magnetic field generated by the induction coil, the sealed metal can including a food product within the sealed metal can, the magnetic field causing resistive heating of the metal of the sealed metal can; a first temperature sensor located within the hermetically sealed can configured to generate a signal indicative of the temperature of the food product within the can while the can is within the induction coil; a second temperature sensor configured to generate a signal indicative of the temperature of a surface of the can; and a control system in communication with the first temperature sensor and the second temperature sensor, wherein the control system stores internal temperature data based upon the signal from the first temperature sensor and stores surface temperature data based upon the signal from the second temperature sensor, wherein the control system is configured to determine a correlation between the temperature of the food product within the can and the temperature of the surface of the can based upon the surface temperature data and the internal temperature data. - View Dependent Claims (9)
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10. A food can heating system configured to heat and substantially sterilize a plurality of filled and hermetically sealed food cans comprising:
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an induction heating coil configured to generate an alternating magnetic field causing resistive heating of the metallic material of the food can; a can moving device configured to move cans into the induction heating coil prior to induction heating, to move cans while being heated by the induction heating coil and to move cans out of the induction heating coil after induction heating; a power supply configured to supply alternating current to the induction heating coil; a power monitoring system coupled to the induction heating coil and configured to measure electrical power delivered to the induction heating coil during a heating cycle; a can monitoring device configured to determine the amount of time each can spends within the induction heating coil; and a control system in communication with the power monitoring system and the can monitoring device and configured to determine the amount of energy received by each food can from the induction heating coil based upon the power delivered to the induction heating coil and based upon the determined time of the food can within the induction coil wherein the induction heating coil heats multiple cans within the generated magnetic field, wherein the can moving device is configured to move multiple cans sequentially through the induction heating coil, wherein the can monitoring device is configured to detect both the position and speed of each can as the can moves through the induction heating system, wherein the determined time is determined based upon at least one of the detected position and the detected speed of the cans within the induction coil. - View Dependent Claims (11, 12, 13, 14)
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Specification