Process for preparing hydrogen by strengthening chemical chain reforming in continuous catalytic adsorption manner via moving bed

A chemical chain and moving bed technology is applied in the field of continuous catalytic adsorption strengthening of chemical chain reforming in moving bed for hydrogen production, which can solve the problems of increased hydrogen production cost, high energy consumption, inability to carry out engineering applications, etc., and achieves reduction of hydrogen production reaction temperature, The effect of accelerating chemical reactions and continuously stabilizing production capacity

Inactive Publication Date: 2013-09-11
DALIAN UNIV OF TECH
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

British P. Pimenidou and V. Dupont et al published in Bioresource Technology in 2010 (P. Pimenidou, et al., Bioresource Technology, 2010, Volume 101, pages 9279-9286) research on waste cooking oil Hydrogen production by chemical chain reforming and CO adsorption in situ 2 , the oxygen transfer performance of the reduction and oxidation of NiO was measured experimentally, but the process uses a fixed-bed reactor for intermittent operation, and does not involve any regeneration problems, so it cannot be used in engineering applications; my country's Dai Xiaoping published in "Catalysis "Journal", (Dai Xiaoping, Acta Catalysis, 2011, vol. 32, pp. 1411-1417) research on nanocomposite perovskite oxygen carrier chemical cycle reforming methane to synthesis gas and Zheng Ying et al published in 2011 "Chinese Journal of Electrical Engineering "(Zheng Ying et al., Proceedings of the Chinese Society for Electrical Engineering, 2011, Vol. 31, pp. 90-96) Regardi

Method used

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  • Process for preparing hydrogen by strengthening chemical chain reforming in continuous catalytic adsorption manner via moving bed
  • Process for preparing hydrogen by strengthening chemical chain reforming in continuous catalytic adsorption manner via moving bed
  • Process for preparing hydrogen by strengthening chemical chain reforming in continuous catalytic adsorption manner via moving bed

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Experimental program
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Effect test

Embodiment 1

[0037] The carbon content of water vapor and biodiesel by-product glycerol is sent to the reformer according to the molar ratio S / C of 20.8 / 1.78, wherein the flow rate of water vapor is: 0.3×10 -3 m 3 min -1 (STP), the temperature of the reformer starts to supply heat externally to 500°C to start the hydrogen production operation. Due to the heat generated by partial oxidation, the temperature rises, the external heat supply stops, and the reactor itself generates heat to maintain the reforming hydrogen production process. When the temperature of the reformer drops to 500°C, the external heat source starts to supply heat, so the temperature of the reformer has been fluctuating between 500-530°C, the temperature of the regenerator is maintained at a constant 850°C, and the particle size of the catalyst and the adsorbent are uniform. (0.40-0.90) mm, the moving rate of the catalyst and adsorbent in the reformer and regenerator is maintained at 10.0 cm / min, the device runs for 60...

Embodiment 2

[0039] The carbon content of water vapor and biodiesel by-product glycerol is sent to the reformer according to the molar ratio S / C of 16 / 1, and the flow rate of water vapor is: 0.3×10 -3 m 3 min -1 (STP), the temperature of the reformer starts the external heat supply to 550 °C to start the hydrogen production operation, and the heat generated by the partial oxidation of the hydrogen production reaction makes the temperature of the reformer rise. At this time, the external heat supply is stopped, and the reactor Self-heating maintains the reforming hydrogen production process. When the temperature of the reformer drops to 550°C, the external heat source starts to supply heat, so the temperature of the reformer has been fluctuating between 550-578°C, and the temperature of the regenerator remains constant at 900 ℃, the particle size of catalyst and adsorbent are both (0.40-0.90) mm, the moving speed of catalyst and adsorbent in the reformer and regenerator are maintained at 1...

Embodiment 3

[0041] The carbon content of water vapor and biodiesel by-product glycerin is sent to the reformer according to the molar ratio S / C of 15 / 1, wherein the flow rate of water vapor is: 0.3×10 -3 m 3 min -1 (STP), the temperature of the reformer starts the external heat supply to 550 °C to start the hydrogen production operation, and the heat generated by the partial oxidation of the hydrogen production reaction makes the temperature of the reformer rise. At this time, the external heat supply is stopped, and the reactor Self-heating maintains the reforming hydrogen production process. When the temperature of the reformer drops to 600°C, the external heat source starts to supply heat, so the temperature of the reformer has been fluctuating between 600-620°C, and the temperature of the regenerator remains constant at 900 ℃, the particle size of the catalyst and the adsorbent are both (0.40-0.90) mm, the moving speed of the catalyst and the adsorbent in the reformer and the regener...

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Abstract

The invention discloses a process method for preparing hydrogen by strengthening chemical chain reforming in a continuous catalytic adsorption manner via a moving bed. The process method is characterized by adopting a reformer, a regenerator, a condenser, a cyclone separator and a lifting pipe, wherein glycerinum which is a biodiesel byproduct serves as a raw material for preparing the hydrogen. According to the method, the oxygen transfer performance of the oxidation reduction of an NiO/AI2O3 catalyst is utilized fully, so that in-situ adsorption intensification of CO2 for hydrogen preparation is carried out by taking CaO as an adsorbent; the water vapor serves as a carrier gas of the reformer, so that the water vapor and the hydrogen of a product are separated conveniently; and the catalyst reduced in the reformer and an adsorbent mixture adsorbing the CO2 are simultaneously oxidated and regenerated in the regenerator. According to the process method, the partial oxidation, the water vapor reforming, the water-vapor transformation and the CO2 adsorption are carried out in the regenerator in a highly coupling manner; and the continuous movement, reaction and regeneration of the catalyst and the adsorbent are carried out by using the moving bed, so that an approximately fresh state is maintained always. Therefore, the hydrogen with high purity is continuously and stably produced at the low temperature under the normal pressure. As a result, the hydrogen preparing process is simplified; the hydrogen preparing cost is saved greatly; and the CO2 is continuously desorbed by the regenerator, which is favorable for CO2 reclamation.

Description

technical field [0001] The invention relates to a process method for continuous catalytic adsorption and enhanced chemical chain reforming hydrogen production in a moving bed, and more specifically, a method for continuously catalytic partial oxidation coupled with CO by using glycerol, a by-product of biodiesel, as a raw material for hydrogen production. 2 In-situ adsorption enhanced steam reforming, a process for producing high-purity hydrogen efficiently and cheaply.  Background technique [0002] The main process of steam reforming hydrogen production includes: raw material pretreatment, steam conversion, CO water vapor shift, pressure swing adsorption (PAS) and waste heat recovery, etc. Due to the limitation of strong heat absorption and reaction balance, steam reforming generally requires high temperature, and the purity of hydrogen is not high. High temperature means high energy consumption, and increases the cost of manufacturing and maintenance of key equipment....

Claims

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Application Information

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IPC IPC(8): C01B3/32
CPCY02P20/584
Inventor 豆斌林宋永臣王超谢宝珍
Owner DALIAN UNIV OF TECH
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