材料导报
材料導報
재료도보
MATERIALS REVIEW
2015年
16期
106-110,114
,共6页
韩磊%祝培旺%戴华%施正伦%王勤辉%方梦祥
韓磊%祝培旺%戴華%施正倫%王勤輝%方夢祥
한뢰%축배왕%대화%시정륜%왕근휘%방몽상
煤灰%碳化法%表面活性剂%分散剂%纳米白炭黑
煤灰%碳化法%錶麵活性劑%分散劑%納米白炭黑
매회%탄화법%표면활성제%분산제%납미백탄흑
coal ash%carbonation method%surfactant%dispersant%nano-silica aerogel
煤灰渣是我国目前排量最大的工业废渣之一,如何综合利用煤灰渣,实现其资源化利用具有重要意义。以黑龙江某热电厂煤灰为原料,硫酸酸浸提铝后得到高硅残渣,此高硅渣与碳酸钠高温焙烧后水溶制备 Na2 SiO3溶液,再采用碳分法制备纳米白炭黑。通过单因素试验得到反应的优化条件为:反应温度75℃,通气速率 v=1 min-1,通气终点 pH=8。反应过程中加入的表面活性剂以质量分数2%的聚乙二醇10000效果最佳,制备的 SiO2粒子尺寸小,分布均匀且团聚体较小。分散剂以质量分数1%的 NaCl 制备的产品分散性最佳。得到白炭黑沉淀后再经陈化、过滤洗涤以及正丁醇共沸,最后干燥得粒径20 nm 左右的疏松纳米白炭黑产品。
煤灰渣是我國目前排量最大的工業廢渣之一,如何綜閤利用煤灰渣,實現其資源化利用具有重要意義。以黑龍江某熱電廠煤灰為原料,硫痠痠浸提鋁後得到高硅殘渣,此高硅渣與碳痠鈉高溫焙燒後水溶製備 Na2 SiO3溶液,再採用碳分法製備納米白炭黑。通過單因素試驗得到反應的優化條件為:反應溫度75℃,通氣速率 v=1 min-1,通氣終點 pH=8。反應過程中加入的錶麵活性劑以質量分數2%的聚乙二醇10000效果最佳,製備的 SiO2粒子呎吋小,分佈均勻且糰聚體較小。分散劑以質量分數1%的 NaCl 製備的產品分散性最佳。得到白炭黑沉澱後再經陳化、過濾洗滌以及正丁醇共沸,最後榦燥得粒徑20 nm 左右的疏鬆納米白炭黑產品。
매회사시아국목전배량최대적공업폐사지일,여하종합이용매회사,실현기자원화이용구유중요의의。이흑룡강모열전엄매회위원료,류산산침제려후득도고규잔사,차고규사여탄산납고온배소후수용제비 Na2 SiO3용액,재채용탄분법제비납미백탄흑。통과단인소시험득도반응적우화조건위:반응온도75℃,통기속솔 v=1 min-1,통기종점 pH=8。반응과정중가입적표면활성제이질량분수2%적취을이순10000효과최가,제비적 SiO2입자척촌소,분포균균차단취체교소。분산제이질량분수1%적 NaCl 제비적산품분산성최가。득도백탄흑침정후재경진화、과려세조이급정정순공비,최후간조득립경20 nm 좌우적소송납미백탄흑산품。
Coal ash is one of the largest industrial waste emissions in our country,how to achieve its resource-oriented utilization has important significance.Coal ash from a power plant of Heilongjiang province was firstly im-mersed in sulfuric acid to generate aluminized solution and high silicon residue.Then the carbonation method was cho-sen to prepare nano-silica aerogel with Na2 SiO3 solution as raw materials prepared by calcinating the high silicon resi-due with Na2 CO3 .The optimal conditions obtained by single factor experiment were as follows:reaction temperature was 75 ℃,ventilation rate was 1 min-1 ,reaction end was pH=8.The mass concentration of 2% PEG10000 is the best surfactant,leading to smaller particle size,more uniform distribution and smaller aggregate of SiO2 .The addition of 1% NaCl in the mass concentration can effectively improve the particle dispersion.After aging,filtering,washing, azeotropic distillation and drying,loose SiO2 particles were finally obtained whose size was 20 nm.
