An aircraft fuel tank ventilation system, comprising a desiccative dehumidifying device including a desiccant medium disposed in flow communication between a vent open to the atmosphere and a fuel tank, and a microwave energy transmitter for energizing liquid water in the desiccant medium to facilit
An aircraft fuel tank ventilation system, comprising a desiccative dehumidifying device including a desiccant medium disposed in flow communication between a vent open to the atmosphere and a fuel tank, and a microwave energy transmitter for energizing liquid water in the desiccant medium to facilitate regeneration of the medium. Also, a method of regenerating a desiccant medium of a dehumidifying device of an aircraft fuel tank ventilation system, the method comprising directing air through the desiccant medium, and transmitting microwave energy into the desiccant medium for energizing liquid water in the desiccant medium to facilitate regeneration of the medium.
대표청구항▼
1. An aircraft fuel tank ventilation system, comprising a desiccative dehumidifying device including a desiccant medium disposed in flow communication between a vent open to the atmosphere and a fuel tank, and a microwave energy transmitter for energizing liquid water in the desiccant medium to faci
1. An aircraft fuel tank ventilation system, comprising a desiccative dehumidifying device including a desiccant medium disposed in flow communication between a vent open to the atmosphere and a fuel tank, and a microwave energy transmitter for energizing liquid water in the desiccant medium to facilitate regeneration of the medium, wherein the ventilation system further comprises a microwave energy receiver and a controller connected to the transmitter and the receiver, and wherein the controller is adapted to increase and decrease the power output of the transmitter according to feedback from the receiver. 2. A ventilation system according to claim 1, wherein the control system is adapted to maintain a substantially constant receive power level when the transmitter is operating. 3. A ventilation system according to claim 1, wherein the control system further comprises one or more temperature sensors for sensing the temperature of the desiccant medium. 4. A ventilation system according to claim 1, further comprising one or more electro-magnetic containment elements for containing the microwave energy. 5. A ventilation system according to claim 1, further comprising a bypass of the dehumidifying device in flow communication between the vent and the fuel tank. 6. A ventilation system according to claim 5, wherein the bypass includes a valve. 7. A ventilation system according to claim 1, wherein the dehumidifying device is disposed in flow connection between the vent and a vent tank. 8. A ventilation system according to claim 7, wherein the vent tank includes an valve selectively open to the atmosphere. 9. A method of regenerating a desiccant medium of a dehumidifying device of an aircraft fuel tank ventilation system, the method comprising directing air through the desiccant medium, and transmitting microwave energy into the desiccant medium for energizing liquid water in the desiccant medium to facilitate regeneration of the medium, the method further comprising feedback control of the transmitted microwave energy, wherein the feedback control receives input from a microwave energy receiver and is adapted to increase and decrease the power input of a microwave energy transmitted used to transmit the microwave energy into the desiccant medium according to feedback from the receiver. 10. A method according to claim 9, wherein the feedback control receives input from one or more temperature sensors. 11. A ventilation system according to claim 1, wherein the power output of the transmitter is increased when the water content in the desiccant is high, and the power output of the transmitter is decreased when the water content in the desiccant is low. 12. A method according to claim 9, wherein the power output of the transmitter is increased when the water content in the desiccant is high, and the power output of the transmitter is decreased when the water content in the desiccant is low. 13. A method of regenerating a desiccant medium of a dehumidifying device of an aircraft fuel tank ventilation system comprising a vent tank having a vent open to the atmosphere and a valve selectively open to the atmosphere, the method comprising opening the valve, circulating air through the vent into the vent tank and out of the vent tank to the atmosphere through the open valve, directing air through a desiccant medium, and transmitting microwave energy into the desiccant medium for energizing liquid water in the desiccant medium to facilitate regeneration of the medium, wherein the moist air that has been passed through the desiccant medium is discharged to the atmosphere. 14. A method according to claim 13, wherein the method is operated during cruise. 15. An aircraft fuel tank ventilation system, comprising a desiccative dehumidifying device including a desiccant medium disposed in flow communication between a vent open to the atmosphere and a fuel tank, and a microwave energy transmitter for energizing liquid water in the desiccant medium to facilitate regeneration of the medium, wherein the dehumidifying device is disposed in flow connection between the vent and a vent tank, and wherein the vent tank includes a valve selectively open to the atmosphere allowing fluid circulation through the vent into the vent tank and out of the vent thank to the atmosphere through the open valve. 16. A method of regenerating a desiccant medium of dehumidifying a device of an aircraft fuel tank ventilation system comprising a vent open to the atmosphere, the method comprising directing air through the desiccant medium when there is a net flow of air from the fuel tank to the atmosphere via the vent, and transmitting microwave energy into the desiccant medium for energizing liquid water in the desiccant medium to facilitate regeneration of the medium when there is a net flow of air from the fuel tank to the atmosphere via the vent. 17. A method of regenerating a desiccant medium according to claim 16, wherein the method is operated during refilling of the fuel tank with fuel or during an ascent phase of a flight.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (7)
Christel ; Jr. Conrad (Dryden NY) White ; Jr. Donald H. (Homer NY), Adsorbent fractionator with automatic temperature-sensing cycle control and process.
Botich Leon A. (10125 E. Tanglewood Cir. Palos Park IL 60464), Apparatus for heating purge gas and transmitting microwave energy for desiccant regeneration.
Tolman Travis G. (South Jordan UT) Blackburn William H. (Provo UT) Baumann Orson M. (Midvale UT), Desiccation system with coupled tether and protective cage.
Wallman, Daniel J.; Galasso, D. Anthony; Magnuson, Jon A.; Grayson, Gary D.; Crooks, Tab H., Monolithic contactor and associated system and method for collecting carbon dioxide.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.