Chlorine-induced degradation in SOFCs operating with biogas

文献信息

发布日期 2017-05-05
DOI 10.1039/C7SE00156H
影响因子 6.367
作者

K. W. Reeping, J. A. Bohn


查看原文

摘要

Experiments described in this work examine degradation mechanisms of nickel-based anodes in solid oxide fuel cells (SOFCs) operating with a biogas surrogate and exposed to 110 ppm Cl (delivered either as CH3Cl or HCl). Chlorine present in green and synthetic fuels such as biogas and syngas can accelerate degradation of high temperature nickel anodes. Chlorine contamination has been studied in SOFCs where H2 was the primary fuel but little attention has focused on deleterious, cooperative effects that result from Cl-contamination in predominantly carbon containing fuels. Operando Raman spectroscopy is used to directly observe the anode's catalytic activity as evidenced by observable carbon accumulation, and electrochemical impedance and voltammetry measurements report on overall cell performance. Studies performed at 650 째C and 700 째C show that Cl immediately suppresses carbon accumulation and causes slow but steady cell degradation. Prolonged exposure to Cl results in abrupt and irreversible device failure. These results differ markedly from recent reports of Cl contamination in SOFCs operating independently with H2 and CH4.

相关文献

Fluorinated vesicles embedded with Ru-based catalysts as efficient and recyclable nanoreactors for photo-mediated aerobic oxidation

Yurong Que, Junyi Ruan, Yan Xiao, Chun Feng, Guolin Lu, Xiaoyu Huang

2020-01-16 Paper

DOI: 10.1039/C9PY01648A

Fluorous effect-induced emission of azido substituted poly(vinylidene fluoride) with high photostability and film formation

Zhicheng Zhang, Jie Xiong, Gang He, Dongfeng Dang, Yunchuan Xie, Qing Wang

2019-12-27 Paper

DOI: 10.1039/C9PY01622H

Oligo(ethylene glycol) as side chains of conjugated polymers for optoelectronic applications

Bin Meng, Jun Liu, Lixiang Wang

2019-12-27 Review Article

DOI: 10.1039/C9PY01469A

Ring opening copolymerization of ε-caprolactone and diselenic macrolide carbonate for well-defined poly(ester-co-carbonate): kinetic evaluation and ROS/GSH responsiveness

Jiahao Wang, Chuanhao Sun, Jieni Hu, Yanling Huang, Yunxiang Lu, Yan Zhang

2020-01-07 Paper

DOI: 10.1039/C9PY01788G

Epoxidized 1,4-polymyrcene

Aleksandar Matic, Andreas Hess, Dirk Schanzenbach, Helmut Schlaad

2020-01-02 Paper

DOI: 10.1039/C9PY01783F

Surface-initiated polymerization for the preparation of magnetic polymer composites

Yang Wang, Lin Shi, Yajin Jin, Si Sun, Pengcheng Gao, Yingying Wei, Zhifei Wang, Yong Jiang

2020-01-17 Paper

DOI: 10.1039/C9PY01744E

您可能还喜欢

化合物问答

处理2-异丙基-5-羧基-1,3-二氧六环(CAS号:116193-72-7)时应注意哪些实验室安全事项?

处理2-异丙基-5-羧基-1,3-二氧六环时应注意以下安全事项:1. 戴上防护眼镜和手套,避免直接接触皮肤和眼睛。2. 在通风橱中操作,确保空气流通。3. 防止...

116193-72-72-Isopropyl-1,3-diox...
化合物问答

2-Hydroxy-N,N-dimethyl-2-phenylacetamide(CAS号:2019-71-8)的市场或研究趋势如何?

该化合物在制药和精细化工领域具有一定的应用,特别是在药物合成中作为中间体。随着环保意识的提高,市场对更安全、更环保的化学品的需求增加,因此该化合物的研究趋势倾向...

2019-71-82-Hydroxy-N,N-dimeth...
化合物问答

4-(1H-吡唑-3-基)哌啶(CAS号:278798-08-6)应用于哪些行业?

4-(1H-吡唑-3-基)哌啶在医药领域有潜在应用,可用于合成药物中间体。此外,在聚合物和传感器领域也有一定的应用前景,可以作为功能材料的一部分。

278798-08-64-(1H-Pyrazol-3-yl)p...
化合物问答

什么是三氯噻嗪(CAS号:133-67-5)?

三氯噻嗪是一种化学物质,其英文名称为6-Chloro-3-(dichloromethyl)-3,4-dihydro-2H-1,2,4-benzothiadiaz...

133-67-56-Chloro-3-(dichloro...
化合物问答

阿螺旋霉素(CAS号:467214-20-6)通常如何合成?

阿螺旋霉素的合成通常采用生物发酵技术,首先从特定的链霉菌提取前体物质,然后通过一系列化学修饰步骤,如酰胺化、环化等,最终得到阿螺旋霉素。常用的催化剂包括有机酸等...

467214-20-6Alvespimycin Hydroch...
化合物问答

什么是2-(二甲基氨基)-5-硝基苯甲酸(CAS号:4405-28-1)?

2-(二甲基氨基)-5-硝基苯甲酸是一种化学化合物,其分子式为C9H11N2O4。该化合物具有一定的生物活性和化学性质,常用于医药、农药及研究领域。

4405-28-12-(Dimethylamino)-5-...
化合物问答

1-苯基-1H-吡唑-4-甲酸甲酯(CAS号:7188-96-7)应用于哪些行业?

1-苯基-1H-吡唑-4-甲酸甲酯主要应用于医药行业,用作合成其他药物的中间体。此外,它还可能在聚合物、传感器等领域有应用。

7188-96-7Methyl 1-phenyl-1h-p...
化合物问答

1-(三异丙基甲硅烷基氧基)环丙烷羧酸甲酯(CAS号:83010-83-7)应用于哪些行业?

该化合物主要用于有机合成中间体领域,特别是在医药合成中作为关键中间体。它也可用于聚合物合成和传感器材料制备。由于其特殊的环丙烷结构和甲硅烷基氧基团,它在半导体材...

83010-83-77-Methoxy-8-nitroqui...
化合物问答

(+)-蛇菰宁(CAS号:215319-47-4)安全吗?

目前没有明确的毒性数据,但作为天然化合物,它通常被认为相对安全。然而,在操作时应避免直接接触皮肤和眼睛,并确保良好的通风条件。

215319-47-4Balanophonin, (+)-
化合物问答

如何处理含有对甲苯氧基乙酸肼(CAS号:36304-39-9)的废料?

含有对甲苯氧基乙酸肼的废料应首先通过中和或沉淀等方法进行预处理,以降低其毒性。然后,可以采用焚烧或交由专业废物处理公司进行安全处置。根据当地法规和环境标准,务必...

36304-39-92-(4-Methylphenoxy)a...
免责声明
本页面提供的学术期刊信息仅供参考和研究使用。我们与任何期刊出版商均无关联,也不处理投稿事宜。如有投稿相关咨询,请直接联系相关期刊出版商。
如发现页面信息有误,请发送邮件至 support@chemtradehub.com 联系我们。我们将及时核实并处理您的问题。