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METHOD FOR STABLE ETHANOL STEAM REFORMING

20190210870 ยท 2019-07-11

    Inventors

    Cpc classification

    International classification

    Abstract

    Method for stable ethanol steam reforming, wherein a catalytic ethanol reforming is carried out in two vessels operating in parallel mode both filled in with a catalyst active for this reaction, with the first vessel acting in operation mode, generating an hydrogen rich stream, and the parallel vessel, acting in regeneration mode, made flowing with steam in order to carry out the gasification of carbonaceous compounds deposited on the catalyst.

    Claims

    1. A method for stable ethanol steam reforming, wherein a catalytic ethanol reforming is carried out in two vessels operating in parallel mode both filled in with a catalyst active for this reaction, characterized in that while the first vessel, acting in reforming operation mode, is made flowing with an ethanol rich gaseous stream under pressure to generate an hydrogen rich stream, the second parallel vessel, acting in regeneration mode, is made flowing with superheated steam at pressure lower than the previous one in order to carry out the gasification of carbonaceous compounds deposited on the catalyst, wherein the regeneration temperature is higher than the reforming temperature, both temperatures being lower than or equal to 600 C.

    2. The method of claim 1 where the catalytic ethanol reforming is carried out with steam/ethanol ratio in the feedstock in the range 2:1-6:1, more preferably in the range 3:1-5:1, still more preferably in the range 4:1-4.5:1.

    3. The method of claim 1 where the catalytic ethanol reforming is carried out in the temperature range 300-600 C., preferably in the range 450-550 C., still more preferably at 500 C.

    4. The method of claim 1 where the catalytic ethanol reforming is carried out in the pressure range 10-30 bar, preferably in the range 15-25 bar, still more preferably at 20 bar.

    5. The method of claim 1 where the catalyst regeneration is carried out with superheated steam.

    6. The method of claim 1 where the catalyst regeneration temperature is in the range 400-600 C., preferably in the range 450-575 C., still more preferably at 550 C.

    7. The method of claim 1 where the catalyst regeneration pressure is in the range 1.1-7 bar, more preferably 1.1-5 bar, still more preferably 3 bar.

    Description

    BRIEF DESCRIPTION OF DRAWINGS

    [0020] FIG. 1 shows the thermodynamic product distribution in ethanol steam reforming;

    [0021] FIG. 2 shows an ethanol steam reforming reactor, with two vessels operating in parallel, in operation/regeneration mode.

    DETAILED DESCRIPTION OF THE INVENTION

    [0022] According to the invention, the reaction of ethanol steam reforming and catalyst regeneration is carried out in parallel vessels, according to the FIG. 2.

    [0023] The invention is based on the fact that while one vessel is made flowing with an ethanol rich gaseous stream to generate a mixture of products containing hydrogen, the parallel vessel is made flowing with superheated steam to regenerate the catalyst. In this way, the overall system is operated continuously in operation/regeneration mode.

    [0024] According to FIG. 2, the catalytic ethanol reforming is carried out in two vessels operating in parallel, with the first, 1, generating the hydrogen rich stream, and the parallel vessel 2 made flowing with superheated steam at high temperature in order to carry out the gasification of carbonaceous compounds.

    [0025] In particular, when the vessel 1 is under operation, the vessel 2 is under regeneration. Under such configuration, the ethanol rich gaseous stream is routed under pressure through the valve V-01 to the first vessel 1 and the reaction products, containing hydrogen, are collected through the valve V-02 for downstream conversion steps. At the same time a stream of superheated steam at low pressure is routed to vessel 2 for regeneration through the valve V-04, and the product of regeneration, mainly steam and CO2, are collected through the valve V-03.

    [0026] On the contrary, when vessel 2 is under operation, the ethanol rich gaseous stream is routed under pressure through the valve V-01 to vessel 2 and the reaction products, containing hydrogen, are collected through the valve V-02 for downstream conversion steps. At the same time a stream of steam at low pressure is routed to vessel 1 for regeneration of the catalyst through the valve V-04, and the product of regeneration, mainly steam and CO2, are collected through the valve V-03.

    [0027] The catalytic ethanol reforming is conducted in the presence of steam. The quantity of steam fed to the reactor is selected so as to achieve the optimal steam/ethanol ratios in the feedstock to enhance the yield of the process. Preferably, steam/ethanol ratio in the feedstock should be in the range 2:1-6:1, more preferably in the range 3:1-5:1, still more preferably in the range 4:1-4.5:1. It should be emphasised that the presence of excess steam in the feedstock enables to inhibit carbonaceous compounds formation on the catalyst.

    [0028] In the preferred embodiment, selected reaction temperature to reduce energy penalty while maintaining an high hydrogen yield are in the range 300-600 C., preferably in the range 450-550 C., still more preferably at 500 C.

    [0029] In the preferred embodiment, selected operating reaction pressure is in the range 10-30 bar, preferably in the range 15-25 bar, still more preferably at 20 bar.

    [0030] The catalyst regeneration is conducted in the presence of superheated steam at high temperature and low pressure. In the preferred embodiment, selected regeneration temperature is in the range 400-600 C., preferably in the range 450-575 C., still more preferably at 550 C.

    [0031] In the preferred embodiment, selected operating regeneration pressure is in the range 1.1-7 bar, more preferably 1.1-5 bar, still more preferably 3 bar.

    REFERENCES

    [0032] 1. Chi-Shen Lee Ethanol reforming catalyst composition and method of producing ethanol reforming catalyst. No. US 2014/0213440 A1, Jul. 31, 2014. [0033] 2. A. L. A. Marinho, R. C. Rabelo-Neto, F. B. Noronha, L. V. Mattos, Appl. Catal. A: Gen. 520 (2016) 53-64. [0034] 3. A. L. A. Marinho, R. C. Rabelo-Neto, F. B. Noronha, L. V. Mattos, Appl. Catal. A: Gen. 520 (2016) 53-64. [0035] 4. L. Zhao, T. Han, H. Wang, L. Zhang, Y. Liu, Appl. Catal. B: Environ. 187 (2016) 19-29. [0036] 5. V. Palma, F. Castaldo, P. Ciambelli, G. Iaquaniello, Appl. Catal. B: Environ. 145 (2014) 73-84.