The influence of chemical composition and preparation procedure on CO2 capture performance of NaNO3 /MgO-based sorbents

Kataliz v promyshlennosti Pub Date : 2023-11-23 DOI:10.18412/1816-0387-2023-6-5-16

I. E. Nikulina, V. S. Derevshchikov, V. Pakharukova, D. Potemkin, P. Snytnikov

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Abstract

MgO based sorbents modified by 5–50 mol.% NaNO3 have been prepared by various methods and investigated in detail. It has been showed that optimal synthesis method is incipient wetness impregnation of MgO precursor with sodium nitrate water solution. The highest sorption capacity of 6.5 mmol CO2 g–1 sorb after 1 hour of sorption from the gas mixture with 50 vol.% CO2 at 320 °C was achieved using the MgO modified by 10 mol.% NaNO3. Sorption capacity for MgO modified by 10 mol.% NaNO3 during 10 consecutive sorption-desorption cycles is approximately 4.5–5.5 mmol CO2 g–1 sorb. The duration of the sorption stage is 30 min, the CO2 content in the feed gas is 50 vol.% and sorption-regeneration temperature is 300–350 °C respectively. It has been showed that increasing the sorption pressure to 10 bar allows reducing sorption temperature from 320 °C to 220–260 °C. The sorption capacity is reached up to 4.0 mmol CO2 g–1 sorb at 25 vol.% CO2 that is twice higher than that at 1 bar. It has been demonstrated that steam and hydrogen treatment before sorption doesn’t lead to a significant change in the sorption properties and phase composition of NaNO3 modified MgO-based sorbent.

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化学成分和制备过程对 NaNO3 /MgO 基吸附剂捕获二氧化碳性能的影响

通过各种方法制备了 5-50 mol.% NaNO3 改性的氧化镁吸附剂，并对其进行了详细研究。结果表明，最佳的合成方法是用硝酸钠水溶液对氧化镁前驱体进行初湿浸渍。在 320 °C、含 50 体积分数 CO2 的混合气体中吸附 1 小时后，使用经 10 摩尔分数 NaNO3 修饰的氧化镁的吸附容量最高，达到 6.5 毫摩尔 CO2 g-1 sorb。在 10 个连续的吸附-解吸循环中，经 10 摩尔 NaNO3 修饰的氧化镁的吸附容量约为 4.5-5.5 毫摩尔 CO2 g-1 sorb。吸附阶段的持续时间为 30 分钟，原料气中的二氧化碳含量为 50 Vol.%，吸附-再生温度分别为 300-350 ℃。实验表明，将吸附压力提高到 10 巴可以将吸附温度从 320 °C 降低到 220-260°C。在 25 vol.% CO2 的条件下，吸附能力可达 4.0 mmol CO2 g-1 sorb，比 1 bar 条件下的吸附能力高出一倍。实验证明，吸附前的蒸汽和氢气处理不会导致 NaNO3 改性氧化镁基吸附剂的吸附性能和相组成发生显著变化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Kataliz v promyshlennosti

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