森林工程
森林工程
삼림공정
FOREST ENGINEERING
2012年
4期
55-60
,共6页
麦草碱木质素三甲基季铵盐%酸性染料%絮凝
麥草堿木質素三甲基季銨鹽%痠性染料%絮凝
맥초감목질소삼갑기계안염%산성염료%서응
trimethyl quaternary ammonium salt of wheat-alkali-lignin%acid dye%flocculation
以从造纸黑液中提取的麦草碱木质素为原料,通过曼尼希反应合成麦草碱木质素三甲基季铵盐,以脱色率为指标检测其对酸性黑ATT、酸性橙GG和酸性红B的絮凝性能。实验结果表明:对于0.1g/l酸性黑ATT溶液,pH为2,麦草碱木质素三甲基季铵盐使用浓度在O-3500mg/l范围内时,脱色率随浓度增大而升高;麦草碱木质素三甲基季铵盐使用浓度为2884mg/l时,在pH为1~4范围内,脱色率随pH降低而增加。酸性橙GG和酸性红B也有类似的规律。由上述结论结合麦草碱木质素三甲基季铵盐和酸性染料的结构特点,认为絮凝过程先是麦草碱木质素三甲基季铵盐中的铵离子与酸性染料中的磺酸根之间氢键吸引,然后染料间产生“架桥”现象,具有三维网状结构的碱木质素分子继续网捕和卷扫脱除染料。
以從造紙黑液中提取的麥草堿木質素為原料,通過曼尼希反應閤成麥草堿木質素三甲基季銨鹽,以脫色率為指標檢測其對痠性黑ATT、痠性橙GG和痠性紅B的絮凝性能。實驗結果錶明:對于0.1g/l痠性黑ATT溶液,pH為2,麥草堿木質素三甲基季銨鹽使用濃度在O-3500mg/l範圍內時,脫色率隨濃度增大而升高;麥草堿木質素三甲基季銨鹽使用濃度為2884mg/l時,在pH為1~4範圍內,脫色率隨pH降低而增加。痠性橙GG和痠性紅B也有類似的規律。由上述結論結閤麥草堿木質素三甲基季銨鹽和痠性染料的結構特點,認為絮凝過程先是麥草堿木質素三甲基季銨鹽中的銨離子與痠性染料中的磺痠根之間氫鍵吸引,然後染料間產生“架橋”現象,具有三維網狀結構的堿木質素分子繼續網捕和捲掃脫除染料。
이종조지흑액중제취적맥초감목질소위원료,통과만니희반응합성맥초감목질소삼갑기계안염,이탈색솔위지표검측기대산성흑ATT、산성등GG화산성홍B적서응성능。실험결과표명:대우0.1g/l산성흑ATT용액,pH위2,맥초감목질소삼갑기계안염사용농도재O-3500mg/l범위내시,탈색솔수농도증대이승고;맥초감목질소삼갑기계안염사용농도위2884mg/l시,재pH위1~4범위내,탈색솔수pH강저이증가。산성등GG화산성홍B야유유사적규률。유상술결론결합맥초감목질소삼갑기계안염화산성염료적결구특점,인위서응과정선시맥초감목질소삼갑기계안염중적안리자여산성염료중적광산근지간경건흡인,연후염료간산생“가교”현상,구유삼유망상결구적감목질소분자계속망포화권소탈제염료。
The trimethyl quaternary ammonium salt of wheat-alkali-lignin was synthesized in the Mannich reaction using wheat straw alkali lignin as raw material which is extracted from black liquo of paper and pulp industry. The decolorization rate of the trimethy quaternary ammonium salt of wheat-alkali-lignin was detected by Acid Black ATr dye, Acid red B, and Orange G in aqueous solu- tion to evaluate flocculation function. The results showed that decolorization rate of 0. 15g/L Acid Black ATY dye with pH values of 2 in aqueous solution increased with increasing concentration of the trimethyl quaternary ammonium salt of wheat-alkali-lignin between 0 -3500 mg/L; the decolorization rate of 0. 15g/L Acid Black ATr dye increased with decreasing pH value between 1 -4 when the concentration is 2884 mg/L. There were similar results for Orange GG and Acid Red B dye. According to the above conclusions and the structure of the trimethyl quaternary ammonium salt of wheat-alkali-lignin and the acid dye, the flocculation mechanism was that there was hydrogen bonds to attract the ammonium ion from the trimethyl quaternary ammonium salt of wheat-alkali-lignin and sulfonate from the acid dye, and acid dye particles played a "bridging" role, then acid dye was netted and swept by alkali lignin with the three- dimensional network structure.