使用 Ca-Zeolite 吸附剂和 Pd/La/Al2O3 还原催化剂连续捕获 N2O 并将其还原为 N2

IF 7.4 Q1 ENGINEERING, ENVIRONMENTAL
Yuan Jing, Chenxi He, Li Wan, Jiahuan Tong, Jialei Zhang, Shinya Mine, Ningqiang Zhang, Yuuta Kageyama, Hironori Inomata, Ken-ichi Shimizu, Takashi Toyao
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引用次数: 0

摘要

一氧化二氮(N2O)是一种强效温室气体,其在大气中浓度的增加是全球变暖的一个主要问题,因此迫切需要开发有效的方法,将一氧化二氮(N2O)转化为无害的二氧化氮(N2)。在这项研究中,我们开发了一种两步式氧化亚氮捕获和还原系统,采用 CaO 嵌合沸石(Ca-zeolites)作为氧化亚氮吸附剂,以含 La 的 Al2O3 上的钯纳米颗粒(Pd/La/Al2O3)作为氧化亚氮还原催化剂。该工艺适合在 50-150 °C 的温度范围内连续运行。N2O 捕获能力和随后的还原能力至少保持了 15 小时(10 个循环)。值得注意的是,在有氧气存在的情况下,该系统可通过简单的温度摆动过程在低温(低于 150 °C)下运行。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Continuous N2O Capture and Reduction to N2 Using Ca-Zeolite Adsorbent and Pd/La/Al2O3 Reduction Catalyst
There is an urgent need to develop effective methods for converting nitrous oxide (N2O) into nonharmful N2 because N2O is a potent greenhouse gas, and its increasing concentration in the atmosphere is a major concern for global warming. In this study, we developed a two-step N2O capture and reduction system, employing CaO-incorporated zeolites (Ca-zeolites) as N2O adsorbents and Pd nanoparticles on La-containing Al2O3 (Pd/La/Al2O3) as catalysts for N2O reduction. This process is suitable for continuous operation over a temperature swing of 50–150 °C. The N2O capture capacity and subsequent reduction ability were preserved for at least 15 h (10 cycles). Notably, this system can operate at low temperatures (below 150 °C) using a simple temperature-swing process in the presence of O2.
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来源期刊
ACS ES&T engineering
ACS ES&T engineering ENGINEERING, ENVIRONMENTAL-
CiteScore
8.50
自引率
0.00%
发文量
0
期刊介绍: ACS ES&T Engineering publishes impactful research and review articles across all realms of environmental technology and engineering, employing a rigorous peer-review process. As a specialized journal, it aims to provide an international platform for research and innovation, inviting contributions on materials technologies, processes, data analytics, and engineering systems that can effectively manage, protect, and remediate air, water, and soil quality, as well as treat wastes and recover resources. The journal encourages research that supports informed decision-making within complex engineered systems and is grounded in mechanistic science and analytics, describing intricate environmental engineering systems. It considers papers presenting novel advancements, spanning from laboratory discovery to field-based application. However, case or demonstration studies lacking significant scientific advancements and technological innovations are not within its scope. Contributions containing experimental and/or theoretical methods, rooted in engineering principles and integrated with knowledge from other disciplines, are welcomed.
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