环境工程学报
環境工程學報
배경공정학보
CHINESE JOURNAL OF ENVIRONMENTAL ENGINEERING
2010年
4期
935-939
,共5页
谢吉星%印杰%陈俊静%徐建中
謝吉星%印傑%陳俊靜%徐建中
사길성%인걸%진준정%서건중
地聚合材料%焚烧飞灰%固化%重金属
地聚閤材料%焚燒飛灰%固化%重金屬
지취합재료%분소비회%고화%중금속
geopolymer%municipal solid waste incineration fly ash%solidification%heavy metals
以垃圾焚烧飞灰和高岭土为主要原料,氢氧化钾为碱激活剂制备了地聚合材料,当焚烧飞灰的掺加量在70%时,其28 d抗压强度可达19. 36 MPa.重金属浸出实验表明,地聚合物材料对垃圾焚烧飞灰中的重金属有明显的固化效果,在28 d时基本无溶出.SEM结果表明,地聚合材料的断面结构与力学性能和固化效果相关,XRD和FTIR的分析结果表明,焚烧飞灰和高岭土在碱的激发下生成新的硅铝酸盐聚合物,所得地聚合材料为无定形态.
以垃圾焚燒飛灰和高嶺土為主要原料,氫氧化鉀為堿激活劑製備瞭地聚閤材料,噹焚燒飛灰的摻加量在70%時,其28 d抗壓彊度可達19. 36 MPa.重金屬浸齣實驗錶明,地聚閤物材料對垃圾焚燒飛灰中的重金屬有明顯的固化效果,在28 d時基本無溶齣.SEM結果錶明,地聚閤材料的斷麵結構與力學性能和固化效果相關,XRD和FTIR的分析結果錶明,焚燒飛灰和高嶺土在堿的激髮下生成新的硅鋁痠鹽聚閤物,所得地聚閤材料為無定形態.
이랄급분소비회화고령토위주요원료,경양화갑위감격활제제비료지취합재료,당분소비회적참가량재70%시,기28 d항압강도가체19. 36 MPa.중금속침출실험표명,지취합물재료대랄급분소비회중적중금속유명현적고화효과,재28 d시기본무용출.SEM결과표명,지취합재료적단면결구여역학성능화고화효과상관,XRD화FTIR적분석결과표명,분소비회화고령토재감적격발하생성신적규려산염취합물,소득지취합재료위무정형태.
Municipal solid waste incineration (MSWI) fly ash and kaolin have been employed to prepare a series of geopolymeric matrices, with potassium hydroxide as activator. The compressive strength of the geopolymer could reach to 19. 36 MPa when the addition of MSWI fly ash amounted to 70%. The results of toxicity characteristic leaching procedure indicated that geopolymer had excellent solidification efficiency to heavy metals.The images of scanning electron microscopy (SEM) showed that the fractured surface structure of matrices was related to the compressive strength and the solidification efficiency. The results of X-ray diffraction (XRD) analysis and Fourier transform infrared spectrum (FTIR) indicated that MSWI fly ash reacted with kaolin to form a new Si-AI polymer under the activation of alkali and that the structure of geopolymer was amorphous.
