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g-C3N4光催化混凝土对NO降解性能研究
Photocatalytic Concrete Loaded with g-C3N4 and Its Degradation Performance of NO
2020年第3期
石墨相氮化碳;光催化混凝土;NO;降解性能;抗压强度
Graphite phase carbon nitride; Photocatalytic concrete; NO; Degradation performance; Compressive strength
2020年第3期
10.19761/j.1000-4637.2021.03.007.04
陕西铁路工程职业技术学院科研基金项目(KY2017-0883);陕西省科技攻关项目(2013GY2-03)。
张瑜都1,孔文琼1,赵建昌2,张 晴3
1.陕西铁路工程职业技术学院,陕西 渭南 714000;2.兰州交通大学 土木工程学院,甘肃 兰州 730070;3.同济大学 汽车学院,上海 200092

张瑜都1,孔文琼1,赵建昌2,张 晴3

张瑜都,孔文琼,赵建昌,等.7 g-C3N4光催化混凝土对NO降解性能研究[J].混凝土与水泥制品,2021(3):7-10.

ZHANG Y D,KONG W Q,ZHAO J C,et al.Photocatalytic Concrete Loaded with g-C3N4 and Its Degradation Performance of NO[J].CHINA CONCRETE AND CEMENT PRODUCTS,2021(3):7-10.

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摘   要:研究了不同制备工艺及掺量的石墨相氮化碳(g-C3N4)对混凝土的力学性能及对NO气体光催化降解性能的影响及变化规律。通过TEM、SEM、XRD分别对材料的物相及微观结构进行了表征,利用微机控制全自动压力试验机和氮氧化物分析仪分别研究了掺g-C3N4后混凝土的抗压强度及对NO的降解性能。结果表明,四种不同种类的g-C3N4掺入后混凝土都具有对NO的降解作用,其中,少层g-C3N4的降解率最高,且在紫外线等照射24 h后其仍能保持较高的降解率;g-C3N4掺量不超过0.8%时混凝土的抗压强度不会有太大影响,在此范围内尽可能提高g-C3N4的掺量来提高其对NO的降解作用。 Abstract: The effects of different preparation technology and amount of graphite phase carbon nitride (g-C3N4) on the mechanical properties of the concrete and photocatalytic degradation of NO gas were studied. The phase and microstructure of the materials were characterized by TEM, SEM and XRD. The compressive strength and NO degradation of the concrete with g-C3N4 were studied by means of a microcomputer controlled automatic pressure tester and a nitrogen oxide analyzer. The results show that four kinds of g-C3N4 added in concrete have obvious degradation effect on NO, among which the degradation rate of a few layers g-C3N4 is the highest, and it can still maintain a high degradation rate 24 h after UV irradiation. The compressive strength of concrete will not be greatly affected when the amount of g-C3N4 does not exceed 0.8%, and the adding g-C3N4 can be improved as much as possible in this range to improve the degradation of NO.  
英文名 : Photocatalytic Concrete Loaded with g-C3N4 and Its Degradation Performance of NO
刊期 : 2020年第3期
关键词 : 石墨相氮化碳;光催化混凝土;NO;降解性能;抗压强度
Key words : Graphite phase carbon nitride; Photocatalytic concrete; NO; Degradation performance; Compressive strength
刊期 : 2020年第3期
DOI : 10.19761/j.1000-4637.2021.03.007.04
文章编号 :
基金项目 : 陕西铁路工程职业技术学院科研基金项目(KY2017-0883);陕西省科技攻关项目(2013GY2-03)。
作者 : 张瑜都1,孔文琼1,赵建昌2,张 晴3
单位 : 1.陕西铁路工程职业技术学院,陕西 渭南 714000;2.兰州交通大学 土木工程学院,甘肃 兰州 730070;3.同济大学 汽车学院,上海 200092

张瑜都1,孔文琼1,赵建昌2,张 晴3

张瑜都,孔文琼,赵建昌,等.7 g-C3N4光催化混凝土对NO降解性能研究[J].混凝土与水泥制品,2021(3):7-10.

ZHANG Y D,KONG W Q,ZHAO J C,et al.Photocatalytic Concrete Loaded with g-C3N4 and Its Degradation Performance of NO[J].CHINA CONCRETE AND CEMENT PRODUCTS,2021(3):7-10.

摘要
参数
结论
参考文献
引用本文

摘   要:研究了不同制备工艺及掺量的石墨相氮化碳(g-C3N4)对混凝土的力学性能及对NO气体光催化降解性能的影响及变化规律。通过TEM、SEM、XRD分别对材料的物相及微观结构进行了表征,利用微机控制全自动压力试验机和氮氧化物分析仪分别研究了掺g-C3N4后混凝土的抗压强度及对NO的降解性能。结果表明,四种不同种类的g-C3N4掺入后混凝土都具有对NO的降解作用,其中,少层g-C3N4的降解率最高,且在紫外线等照射24 h后其仍能保持较高的降解率;g-C3N4掺量不超过0.8%时混凝土的抗压强度不会有太大影响,在此范围内尽可能提高g-C3N4的掺量来提高其对NO的降解作用。

Abstract: The effects of different preparation technology and amount of graphite phase carbon nitride (g-C3N4) on the mechanical properties of the concrete and photocatalytic degradation of NO gas were studied. The phase and microstructure of the materials were characterized by TEM, SEM and XRD. The compressive strength and NO degradation of the concrete with g-C3N4 were studied by means of a microcomputer controlled automatic pressure tester and a nitrogen oxide analyzer. The results show that four kinds of g-C3N4 added in concrete have obvious degradation effect on NO, among which the degradation rate of a few layers g-C3N4 is the highest, and it can still maintain a high degradation rate 24 h after UV irradiation. The compressive strength of concrete will not be greatly affected when the amount of g-C3N4 does not exceed 0.8%, and the adding g-C3N4 can be improved as much as possible in this range to improve the degradation of NO.

 

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本文研究了以不同方法制备的g-C3N4掺入混凝土后,其对NO气体的降解率和混凝土抗压强度的影响,通过对比得出,少层g-C3N4以0.8%的掺入量所制备的混凝土对NO的气体降解率最高,且对混凝土的抗压强度无显著影响。另外,稳定性测试结果也表明,混凝土在强紫外线下照射24 h后,少层g-C3N4混凝土仍然可以保持稳定的光电流和对NO较高的降解率。

[1] 李丽,钱春香.南京长江三桥光催化功能性混凝土路去除汽车排放氮氧化物的研究[J].河南科技大学学报(自然科学版),2009(2):49-52. 
[2] 孙立军,徐海铭,李剑飞,等.纳米二氧化钛处治汽车尾气效果与应用方法的研究[J].公路交通科技,2011,28(4):153-158. 
[3] 宋旭.g-C3N4/{001}TiO2复合光催化剂对NOx氧化的性能及机制研究[D].广州:华南理工大学,2015. 
[4] 瞿金东,彭家惠,陈明凤,等.自清洁外墙涂料的研究与应用[J].涂料工业,2006,36(1):43-45.   
[5] SUNADA K,KIKUCHI Y,HASHIMOTO K,et al.Bactericidal and Detoxification Effects of TiO2 Thin Film Photocatalysts[J].Environ.Sci.Technol,1998,32(5):726-728.   
[6] 董瑞,沈卫,国钟景,等.光催化自洁净混凝土研究进展[J]. 混凝土,2011(8):62-65.
[7] GUO M Z,POON C S.Photocatalytic NO removal of concrete surface layers intermixed with TiO2[J].Building and Environment,2013,70:102-109.
[8] WANG Y M,LI Y,ZHANG W L,et al.Photocatalytic degradation and reactor modeling of 17α-ethynylestradiol employing titanium dioxide-incorporated foam concrete[J].Environmental Science and Pollution Research,2014,22(5):3508-3517.
[9] HE R,HUANG X,ZHANG J S,et al.Preparation and Evaluation of Exhaust-Purifying Cement Concrete Employing Titanium Dioxide[J].Materials(Basel, Switzerland),2019,12(13):2182.
[10] BICA B O,DE MELO J V S.Concrete blocks nano-modified with zinc oxide(ZnO) for photocatalytic paving: Performance comparison with titanium dioxide(TiO2)[J].Construction and Building Materials,2020,252:119-120.
[11] TETER D M,HEMLY R J.Low-compressibility carbon nitrides[J].Science.1996,271:53-55. 

张瑜都,孔文琼,赵建昌,.7 g-C3N4光催化混凝土对NO降解性能研究[J].混凝土与水泥制品,2021(3):7-10.

ZHANG Y D,KONG W Q,ZHAO J C,et al.Photocatalytic Concrete Loaded with g-C3N4 and Its Degradation Performance of NO[J].CHINA CONCRETE AND CEMENT PRODUCTS,2021(3):7-10.

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