CN106492518B - 一种快速把纳米碳溶液浓缩且把纳米碳沉淀并分离的方法 - Google Patents

一种快速把纳米碳溶液浓缩且把纳米碳沉淀并分离的方法 Download PDF

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CN106492518B
CN106492518B CN201610878172.8A CN201610878172A CN106492518B CN 106492518 B CN106492518 B CN 106492518B CN 201610878172 A CN201610878172 A CN 201610878172A CN 106492518 B CN106492518 B CN 106492518B
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CN106492518A (zh
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李开生
蒋磊
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Beijing Naiaisi New Material Technology Co.,Ltd.
Shanghai Library Technology Co., Ltd.
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Shanghai Library Technology Co Ltd
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D61/00Processes of separation using semi-permeable membranes, e.g. dialysis, osmosis or ultrafiltration; Apparatus, accessories or auxiliary operations specially adapted therefor
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D21/00Separation of suspended solid particles from liquids by sedimentation
    • B01D21/01Separation of suspended solid particles from liquids by sedimentation using flocculating agents

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  • Chemical Kinetics & Catalysis (AREA)
  • Engineering & Computer Science (AREA)
  • Water Supply & Treatment (AREA)
  • Separation Using Semi-Permeable Membranes (AREA)

Abstract

一种快速把纳米碳溶液浓缩且把纳米碳沉淀并分离的方法属于制备纳米碳领域。把pH小于2.4固含量浓度0.1%‑5%的纳米碳溶液,通过对陶瓷膜多次浓缩,使得纳米碳含量增加变成浓缩纳米碳溶液,并通过纤维素醚或者碳酸氢铵的加入,使得溶液中含负电位的纳米碳络合沉淀,形成透明的清液。浓缩液经过多次浓缩和沉淀,经过再次加工可以形成不含盐的纳米碳粉,可广泛应用于不同领域,加工处理后产出的酸透明溶液,可用于医疗或农业杀菌消毒或保鲜。这种浓缩分离沉淀方式工艺简单,环保,低能耗可大工业生产。

Description

一种快速把纳米碳溶液浓缩且把纳米碳沉淀并分离的方法
技术领域
一种快速把纳米碳溶液浓缩且把纳米碳沉淀并分离的方法属于制备纳米碳领域。
背景技术
现有技术中申请人没有查到能够快速纳米碳溶液浓缩且把纳米碳沉淀并分离的方法。本发明巧妙的应用了陶瓷膜多次浓缩,并且同时通过纤维素醚或者碳酸氢铵的加入,使得溶液中含负电位的纳米碳络合沉淀,有非常大的工业利用价值。而且加工处理后产出的酸透明溶液,可用于医疗或农业杀菌消毒或保鲜。
发明内容
一种快速把纳米碳溶液浓缩且把纳米碳沉淀并分离的方法,其特征在于:把pH小于2.4固含量浓度0.1%-5%的纳米碳溶液,通过对陶瓷膜多次浓缩,使得纳米碳含量增加变成浓缩纳米碳溶液,并通过纤维素醚或者碳酸氢铵的加入,使得溶液中含负电位的纳米碳络合沉淀,形成酸性透明的清液。
进一步,纤维素醚或者碳酸氢铵的加入量为0.1-1g/L纳米碳溶液,所述纳米碳溶液为初始的pH小于2.4固含量浓度0.1%-5%的纳米碳溶液。
浓缩液经过多次浓缩和沉淀,经过再次加工可以形成不含盐的纳米碳粉,可广泛应用于不同领域,加工处理后产出的酸透明溶液,可用于医疗或农业杀菌消毒或保鲜。这种浓缩分离沉淀方式工艺简单,环保,低能耗可大工业生产。
具体实施方式
把pH为2固含量浓度5g/L的纳米碳溶液250升,通过对孔径为10nm陶瓷膜多次浓缩,浓缩至5升纳米碳溶液,在经过加热或者喷雾干燥得到碳纳米粉。
经过分离出来的酸性透明清液加入纤维素醚或者碳酸氢铵,能够络合沉淀后分离出来的液体,形成透明pH小于2.4的酸液。
纤维素醚的吸水倍数能达到4000-20000倍数,或者加入碳酸氢铵,是性能良好的食品级添加剂。纤维素醚或者碳酸氢铵的加入量为0.1-1g/L,进一步为0.3-0.5g/L,更进一步为0.3-1g/L。

Claims (1)

1.一种快速把纳米碳溶液浓缩且把纳米碳沉淀并分离的方法,其特征在于:
把pH为2固含量浓度5g/L的纳米碳溶液250升,通过对孔径为10nm陶瓷膜多次浓缩,浓缩至5升纳米碳溶液,在经过加热或者喷雾干燥得到碳纳米粉;
经过分离出来的酸性透明清液加入纤维素醚或者碳酸氢铵,能够络合沉淀后分离出来的液体,形成透明pH小于2.4的酸液。
CN201610878172.8A 2016-10-03 2016-10-03 一种快速把纳米碳溶液浓缩且把纳米碳沉淀并分离的方法 Active CN106492518B (zh)

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CN101282913A (zh) * 2005-09-30 2008-10-08 Otv股份有限公司 包括快速沉淀步骤、然后直接在微过滤或超过滤膜上过滤的步骤的水处理方法以及相应装置
CN104628019A (zh) * 2013-11-15 2015-05-20 李进凯 一种从粉煤灰中分离回收氧化铝的方法
CN105903231A (zh) * 2016-04-27 2016-08-31 中南大学 一种分步絮凝处理白钨矿选矿尾矿矿浆的工艺

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US10399878B2 (en) * 2015-03-19 2019-09-03 Mitsubishi Heavy Industries Engineering, Ltd. Water treatment system and power generation facility

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101282913A (zh) * 2005-09-30 2008-10-08 Otv股份有限公司 包括快速沉淀步骤、然后直接在微过滤或超过滤膜上过滤的步骤的水处理方法以及相应装置
CN104628019A (zh) * 2013-11-15 2015-05-20 李进凯 一种从粉煤灰中分离回收氧化铝的方法
CN105903231A (zh) * 2016-04-27 2016-08-31 中南大学 一种分步絮凝处理白钨矿选矿尾矿矿浆的工艺

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