The present invention provides improved apparatus and methods for the monitoring and control of apparatus designed to remove moisture from an initially wet product, such as a continuous dryer (14). The net rate of water removal from the wet product (16) is determined during drying thereof, preferabl
The present invention provides improved apparatus and methods for the monitoring and control of apparatus designed to remove moisture from an initially wet product, such as a continuous dryer (14). The net rate of water removal from the wet product (16) is determined during drying thereof, preferably on a real-time basis. A control assembly (20) is operatively coupled with the dryer (14) and includes sensors (24, 26, 28, 34), which are operatively coupled with a digital controller (38). The controller (38) has a PID controller operable to continuously determine the average net rate of water removal from the product (16).
대표청구항▼
1. Apparatus operable to remove water from initially wet product passing through the apparatus by contacting the wet product with input air to create dried product and moisture-laden exit air, said apparatus including a conveyor to pass the wet product through the apparatus, an exhaust fan to exhaus
1. Apparatus operable to remove water from initially wet product passing through the apparatus by contacting the wet product with input air to create dried product and moisture-laden exit air, said apparatus including a conveyor to pass the wet product through the apparatus, an exhaust fan to exhaust said exit air from the apparatus, an optional heater to heat said input air, and a control structure including a sensor assembly to measure at least one operational parameter of said exhaust fan and a controller configured to determine the volumetric flow rate of said exit air from said exhaust fan and to use said volumetric flow rate to determine net rate of water removal from said wet product during operation of said apparatus, said control structure further configured to determine the net rate of water removal from said wet product including the functions of: (1) determining the rate of water leaving the apparatus as a part of the exit air from said exhaust fan based on the measured at least one operational parameter of said exhaust fan; (2) subtracting from rate (1) the rate of water entering the apparatus as a part of the input air, and as a part of said initially wet product to obtain the net rate of water removal from said wet product, and said control structure further configured to control said conveyor, exhaust fan, and optional heater to adjust at least one control parameter of the apparatus in order to alter the rate of water removal from the wet product in response to the determined net rate of water removal therefrom, said control parameter selected from the group consisting of the temperature of said input air, the speed of said wet product passing through the apparatus, the contact time between the wet product passing through the apparatus and said input air, and combinations thereof. 2. The apparatus of claim 1, further comprising a heater to heat a portion of said input air. 3. The apparatus of claim 2, said control structure configured to calculate said volumetric flow rate using said fan parameter in a Fan Law equation. 4. The apparatus of claim 1, said at least one operational parameter of said exhaust fan, selected from the group consisting of fan motor power, fan rotational speed, and fan pressure, and combinations thereof, and said control structure configured to use said at least one parameter to determine said volumetric flow rate. 5. The apparatus of claim 4, said control structure configured to determine said volumetric flow rate using two operational parameters of said exhaust fan selected from the group consisting of: (1) fan motor power and fan rotational speed; (2) fan pressure and fan rotational speed; or (3) fan motor power and fan pressure. 6. The apparatus of claim 5, further comprising sensors to measure: (a) the wet bulb temperature and dry bulb temperature of said exit air;(b) the rotational speed of said exhaust fan;(c) the motor power of said exhaust fan;(d) the wet bulb temperature and dry bulb temperature of said input air; andsaid control structure configured to calculate said net rate of water removal from said product in real time as the wet product passes through said apparatus, using the measured values (a)-(d), inclusive. 7. The apparatus of claim 1, said control structure configured to determine a set point rate SP which is the desired net rate of water removal from the wet product during passage thereof through the apparatus, a process variable PV which is the actual net rate of water exiting the wet product during passage through the apparatus, and to control the operation of the apparatus using said SP and said PV, to cause said PV to approach said SP. 8. The apparatus of claim 7, said control structure configured to successively and periodically determine said SP and said PV, and to control the operation of the apparatus using said successive SP and PV determinations. 9. The apparatus of claim 8, said control structure including a PLC with a PID controller to carry out said successive determinations of said SP and said PV. 10. The apparatus of claim 9, said PLC controller configured, in each of said successive determinations, to calculate said SP, said PV, the difference between said SP and said PV, and a control variable CV. 11. The apparatus of claim 7, said control structure configured to determine said SP as the initial water rate (IWR) minus the final water rate (FWR), where IWR is the rate of water delivered to the apparatus as a part of said wet product input, and FWR is the desired rate of water exiting from the apparatus as a part of said dried product. 12. The apparatus of claim 7, said control structure configured to determine said PV as the rate of water leaving said apparatus as a part of the output of said exhaust fan minus the rate of water entering said apparatus as a part of said input air. 13. The apparatus of claim 1, said control structure configured to determine the net rate of water removal from said wet product in real time as the wet product passes through the apparatus. 14. The apparatus of claim 13, said control structure configured to determine the average net rate of water removal from said wet product. 15. Apparatus operable to remove water from initially wet product passing through the apparatus by contacting the wet product with input air to create dried product and moisture-laden exit air, said apparatus including a conveyor to pass the wet product through the apparatus, an exhaust fan to exhaust said exit air from the apparatus, an optional heater to heat said input air, and a control structure including a sensor assembly to measure at least one operational parameter of said exhaust fan and a controller operable to determine the net rate of water removal from said wet product in real time during operation of said apparatus, said control structure further configured to determine the net rate of water removal from said wet product including the functions of: (1) determining the rate of water leaving the apparatus as a part of the exit air from said exhaust fan based on the measured at least one operational parameter of said exhaust fan; (2) subtracting from rate (1) the rate of water entering the apparatus as a part of the input air, and as a part of said initially wet product to obtain the net rate of water removal from said wet product, and said control structure further configured to control said conveyor, exhaust fan, and optional heater to adjust at least one control parameter of the apparatus in order to alter the rate of water removal from the wet product in response to the determined net rate of water removal therefrom, said control parameter selected from the group consisting of the temperature of said input air, the speed of said wet product passing through the apparatus, the contact time between the wet product passing through the apparatus and said input air, and combinations thereof. 16. The apparatus of claim 15, said control structure configured to determine at least one operational parameter of said exhaust fan selected from the group consisting of fan motor power, fan rotational speed, and fan pressure, and combinations thereof, and using said at least one parameter to determine said volumetric flow rate. 17. The apparatus of claim 16, said control structure configured to determine two operational parameters of said exhaust fan selected from the group consisting of: (1) fan motor power and fan rotational speed; (2) fan pressure and fan rotational speed; or (3) fan motor power and fan pressure. 18. The apparatus of claim 17, further comprising sensors to measure: (a) wet bulb temperature and dry bulb temperature of said exit air;(b) the rotational speed of said exhaust fan;(c) the motor power of said exhaust fan;(d) wet bulb temperature and dry bulb temperature of said input air; andsaid control structure configured to determine said net rate of water removal from said wet product in real time as the wet product passes through said apparatus, using the determined values (a)-(d), inclusive.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (13)
Satake Satoru,JPX ; Liu Hou Qing,JPX ; Kuninobu Makoto,JPX ; Orihashi Keisuke,JPX, Apparatus for drying granular objects involving pre-heating process.
Torii Kouzi,JPX, Polishing apparatus having a material for adjusting a surface of a polishing pad and method for adjusting the surface of the polishing pad.
Bracken Howard,AUX ; Thomas Donald Sanderson,AUX, Process of and apparatus for providing at least a partial barrier to moisture vapor transfer through the surface of a ma.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.