초록 ▼

The invention relates to a process for operating a system for the water vapor reforming of a hydrocarbon, having an evaporator, a reforming reactor, a membrane module connected behind, and a catalytic burner device. According to the invention, a first part of the catalytic burner device is in therma

The invention relates to a process for operating a system for the water vapor reforming of a hydrocarbon, having an evaporator, a reforming reactor, a membrane module connected behind, and a catalytic burner device. According to the invention, a first part of the catalytic burner device is in thermal contact with the reforming reactor, and a second part of the burner device is in thermal contact with the evaporator. According to the process, a heating operation is carried out during the cold start of the system, in which, in a first operating phase, at least the evaporator and the reforming reactor are heated by the catalytic burner device, and in a second operating phase, a hydrocarbon/water vapor mixture is prepared in the evaporator at a water/hydrocarbon ratio which is higher than in the normal operation and is fed to the reactor, the substance mixture emerging from the reactor being fed by way of the membrane module to the catalytic burner device.

대표청구항 ▼

[ What is claimed is:] [1.]1. A process for operating a system for water vapor reforming of a hydrocarbon, comprising an evaporator, a reforming reactor, a membrane module for selective hydrogen separation and a catalytic burner device, said process comprising:heating hydrocarbon and water, when the

[ What is claimed is:] [1.]1. A process for operating a system for water vapor reforming of a hydrocarbon, comprising an evaporator, a reforming reactor, a membrane module for selective hydrogen separation and a catalytic burner device, said process comprising:heating hydrocarbon and water, when the system is heated to a normal operation, at an adjustable ratio in the evaporator forming a heated mixture that is fed to the reforming reactor in which the hydrocarbon is subjected to water vapor reforming, and the resulting formed hydrogen is separated in the membrane module at a normal operating pressure and a normal operating temperature; andcarrying out a heating operation during a cold start of the system, wherein during a first operating phase, the catalytic burner device is in thermal contact with at least the reforming reactor and the evaporator by way of respective heat-conducting partitions and is heated to a temperature above the boiling point of water and the hydrocarbon and/or the hydrogen is catalytically burned, while an oxygen-containing gas is fed thereto, wherein during a second operating phase, the water and hydrocarbon are fed to the evaporator at a water to hydrocarbon ratio that is higher than in the normal operation, and the heated mixture emerging from the reforming reactor is fed through the membrane module to the catalytic burner device. [11.]11. A system for the water vapor reforming of a hydrocarbon comprising:a reforming reactor,an evaporator having a metering device which is connected to one end of the reforming reactor,a membrane module connected to the other end of the reforming reactor, anda catalytic burner device wherein at least a first part of the catalytic burner device is in thermal contact with the reforming reactor through a first partition, and at least a second part of the catalytic burner device is in thermal contact with the evaporator, through a second partition.12. A system according to claim 11, further comprising a cooler that condenses out water contained in a mixture emerging from the membrane module and being fed to the catalytic burner device, the cooler being arranged between the membrane module and the catalytic burner device.13. A process for operating a system for water vapor reforming hydrocarbons, wherein the system comprises a catalytic burning device, an evaporator connected to one end of a reforming reactor and a membrane module connected to another end of the reforming reactor for selective hydrogen separation, the system being arranged such that during heated a normal operation, an adjustable ratio of water and the hydrocarbon to be reformed are heated in the evaporator forming a heated mixture that is fed to the reforming reactor wherein the hydrocarbon is subjected to a water vapor reforming process to form hydrogen that is separated from the heated mixture in the membrane module at a normal operating pressure and normal operating temperature, wherein the process comprises the further steps of:carrying out a cold start heating operation before the heated normal operation that comprises the further steps of;heating the catalytic burner device in a first operating phase to a temperature above the boiling point of water by catalytically burning the hydrocarbon and/or hydrogen while feeding an oxygen-containing gas thereto, the catalytic burner device being arranged such that it is in thermal contact at least with the reforming reactor and the evaporator through respective heat-conducting partitions; andfeeding, in a second operating phase, water and hydrocarbon at a ratio higher than in the normal heated operation to the evaporator and thereafter to the reforming reactor thereby forming a heated substance mixture which is fed from the reforming reactor to the membrane module and then to the catalytic burner device.14. A process for preheating a system for water vapor reforming of hydrocarbon comprising the steps of:thermally connecting a catalytic burning device with at least an evaporator and a water vapor reforming reactor through respective heat conducting partitions;heating the catalytic burning device to a temperature higher than the boiling point of water through catalytic combustion of a hydrocarbon and/or hydrogen and an oxygen containing gas in the catalytic burning device;feeding a hydrocarbon and water mixture at a predetermined ratio to the evaporator wherein the mixture is heated by the catalytic combustion in the catalytic burning device;feeding the heated mixture from the evaporator to the reforming reactor where the mixture is further heated by the catalytic combustion in the catalytic burning device;feeding the heated mixture from the reforming reactor to a membrane module to heat a membrane contained therein to increase hydrogen diffusion capacity of the membrane; andfeeding the heated mixture to the catalytic burning device for further catalytic combustion.15. A process for operating a fuel cell system having a reforming system for water vapor reforming of a hydrocarbon and a cooling circulation system, said reforming system including an evaporator, a reforming reactor, a membrane module for selective hydrogen separation and a catalytic burner device, said process comprising:heating hydrocarbon and water, when the system is heated to a normal operation, at an adjustable ratio in the evaporator forming a heated mixture that is fed to the reforming reactor in which the hydrocarbon is subjected to water vapor reforming, and the resulting formed hydrogen is separated in the membrane module at a normal operating pressure and a normal operating temperature;carrying out a heating operation during a cold start of the system, wherein during a first operating phase, the catalytic burner device is in thermal contact with at least the reforming reactor and the evaporator by way of respective heat-conducting partitions and is heated to a temperature above the boiling point of water and the hydrocarbon and/or the hydrogen is catalytically burned, while an oxygen-containing gas is fed thereto, wherein during a second operating phase, the water and hydrocarbon are fed to the evaporator at a water to hydrocarbon ratio that is higher than in the normal operation, and the heated mixture emerging from the reforming reactor is fed through the membrane module to the catalytic burner device; andheating the cooling circulation system with exhaust gases from the catalytic burner device.