A container having a plurality of walls, and at least one inlet and/or outlet, said container including an apparatus for controlling the composition of gases within the container, the apparatus including at least one sensor, at least one controller and at least one gas permeable membrane, through wh
A container having a plurality of walls, and at least one inlet and/or outlet, said container including an apparatus for controlling the composition of gases within the container, the apparatus including at least one sensor, at least one controller and at least one gas permeable membrane, through which membrane different gases can pass at different rates, said membrane dividing the container into a first region being for holding cargo and a second region defining a gas buffer region, and said membrane being permeable permitting for nitrogen, oxygen and carbon dioxide at different flow rates, wherein the buffer region is in communication with the ambient atmosphere through one or more vacuum pump(s).
대표청구항▼
1. A container comprising: a plurality of walls; andat least one inlet and/or outlet; andan apparatus for controlling the composition of gases within the container, the apparatus including: at least one sensor configured to determine a gas composition;at least one controller; andat least one gas per
1. A container comprising: a plurality of walls; andat least one inlet and/or outlet; andan apparatus for controlling the composition of gases within the container, the apparatus including: at least one sensor configured to determine a gas composition;at least one controller; andat least one gas permeable membrane, through which membrane different gases pass at different rates, said membrane dividing the container into a first region being for holding cargo and a second region defining a gas buffer region, and said membrane being permeable permitting for nitrogen, oxygen and carbon dioxide at different flow rates, wherein the gas buffer region is in communication with an ambient atmosphere through one or more vacuum pumps, wherein the at least one controller is configured to activate and deactivate the one or more vacuum pumps in response to a sensed composition of gas within the first region, and wherein the one or more vacuum pumps are activated to lower a concentration of carbon dioxide and oxygen within the container to below 21%. 2. A container according to claim 1, wherein the one or more vacuum pump(s) are oil-lubricated lamellae pump(s). 3. A container according to claim 1, wherein the one or more vacuum pump(s) are provided with a pre-heating element for preheating the lubrication oil for the pump(s). 4. An apparatus for controlling the composition of gases within a container, said container including a plurality of walls, said apparatus comprising: at least one inlet and/or outlet;at least one sensor configured to determine a gas composition;at least one controller; andat least one gas permeable membrane through which membrane different gases pass at different rates, wherein said container comprises a first region for holding cargo and the apparatus and the at least one gas permeable membrane define a second gas buffer region, wherein the at least one inlet and/or outlet being capable of establishing communication between said second gas buffer region and an ambient atmosphere through one or more vacuum pumps, wherein the at least one controller is configured to activate and deactivate the one or more vacuum pumps in response to a sensed composition of gas within the first region, and wherein the one or more vacuum pumps are operated to lower a concentration of carbon dioxide and oxygen within the container to below 21%. 5. An apparatus according to claim 4, wherein the one or more vacuum pump(s) are oil lubricated lamellae pump(s). 6. An apparatus according to claim 4, wherein the one or more vacuum pump(s) are provided with a pre-heating element for preheating the lubrication oil for the pump(s). 7. A method for controlling the composition of gases within a container, said method comprising: providing a container with an apparatus that includes: at least one inlet and/or outlet;at least one sensor configured to determine a gas composition;at least one controller; andat least one gas permeable membrane through which membrane different gases can pass at different rates, said container comprising a first region for holding cargo, and said apparatus and membrane defining a second buffer region, said at least one inlet and/or outlet being in communication with said buffer region and said membrane being permeable permitting for nitrogen, oxygen and carbon dioxide at different flow rates;one or more vacuum pumps configured to establish a sub-atmospheric pressure in the buffer region by evacuating gas from the first region of the container through the membrane, wherein the at least one controller is configured to activate and deactivate the one or more vacuum pumps in response to a sensed composition of gas within the first region; and operating the one or more vacuum pumps to lower a concentration of carbon dioxide and oxygen within the container to below 21%. 8. A method according to claim 7, wherein establishing a sub-atmospheric pressure comprises measuring the content of carbon dioxide in the buffer region and if necessary sucking off gas in the buffer region and the cargo region through the membrane by establishing a sub-atmospheric pressure in the buffer region. 9. A method according to claim 7, wherein establishing a sub-atmospheric pressure comprises measuring the content of carbon dioxide in the cargo region and if necessary sucking off gas in the buffer region and the cargo region through the membrane by establishing a sub-atmospheric pressure in the buffer region. 10. A method according to claim 7, wherein establishing a sub-atmospheric pressure comprises measuring the content of oxygen in the buffer region and if necessary sucking off gas in the buffer region and the cargo region through the membrane by establishing a sub-atmospheric pressure in the buffer region. 11. A method according to claim 7, wherein establishing a sub-atmospheric pressure comprises measuring the content of oxygen in the cargo region and if necessary sucking off gas in the buffer region and the cargo region through the membrane by establishing a sub-atmospheric pressure in the buffer region. 12. The container according to claim 1, wherein an ambient pressure outside of the container is about 1000 mbar and the one or more vacuum pump is activated to lower a pressure within the container to below 200 mbar. 13. The container according to claim 12, wherein the one or more vacuum pump is activated to lower the pressure within the container to between about 40 and 80 mbar. 14. The container according to claim 13, wherein the one or more vacuum pump is deactivated when the concentration of carbon dioxide is about 5% and the concentration of oxygen is about 3%. 15. The apparatus according to claim 4, wherein an ambient pressure outside of the container is about 1000 mbar and the one or more vacuum pump is activated to lower a pressure within the container to below 200 mbar. 16. The apparatus according to claim 15, wherein the one or more vacuum pump is activated to lower the pressure within the container to between about 40 and 80 mbar. 17. The apparatus according to claim 16, wherein the one or more vacuum pump is deactivated when the concentration of carbon dioxide is about 5% and the concentration of oxygen is about 3%. 18. The method according to claim 7, wherein an ambient pressure outside of the container is about 1000 mbar and the one or more vacuum pump is activated to lower a pressure within the container to below 200 mbar. 19. The method according to claim 18, wherein the one or more vacuum pump is activated to lower the pressure within the container to between about 40 and 80 mbar. 20. The method according to claim 19, wherein the one or more vacuum pump is deactivated when the concentration of carbon dioxide is about 5% and the concentration of oxygen is about 3%.
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이 특허에 인용된 특허 (3)
Pezzot Adriano (Via Udine ; 8 33094 Cordenons (Pordenone) ITX), Intermediately cooled air vacuum pump with balancing of the pressures.
Noack, Andreas; Kunstmann, Jürgen; Gnabs, Christian; Bischofberger, Norman; Paul, Norbert A.; Rathenow, Jörg, Method and device for reducing the carbon dioxide concentration in air.
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