-
公开(公告)号:US20120138543A1
公开(公告)日:2012-06-07
申请号:US13152212
申请日:2011-06-02
申请人: Haihong LI , Zhiang ZHOU , Ross Sam CHOW , Pablo CONTRERAS
发明人: Haihong LI , Zhiang ZHOU , Ross Sam CHOW , Pablo CONTRERAS
CPC分类号: C02F1/56 , B01D21/01 , B01D2221/04 , C02F1/5236 , C02F2103/10
摘要: A charged particle polymer hybrid (CPPH) flocculant is taught, comprising sub-micron size charged particles and a polymer which has been polymerized in the presence of the charged particles wherein the intrinsic viscosity of the hybrid polymer flocculant is less than 930 ml/g. A method is provided for producing freely draining flocculated sediment from a suspension comprising finely divided solids in water. The method comprises dispersing, at increasing concentrations, a charged particle polymer hybrid (CPPH) flocculant into the suspension to determine a starting plateau concentration of CPPH flocculant above which concentration no further increase in the solids loading of the produced floccules is observed. Then, the concentration of dispersed CPPH flocculant in the suspension is maintained at or above the starting plateau concentration. A method is further provided for separating fine solids and water from a suspension comprising finely divided solids in water. The method involves dispersing, at increasing concentrations, a charged particle polymer hybrid (CPPH) flocculant into the suspension to determine a starting plateau concentration of CPPH flocculant above which concentration no further increase in the solids loading of the produced floccules is observed. Then, the concentration of dispersed CPPH flocculant in the suspension is maintained at or above the starting plateau concentration. The dispersion of CPPH flocculant in the suspension is agitated and the solid floccules are then separated from the supernatant liquid.
摘要翻译: 教导了带电粒子聚合物杂化物(CPPH)絮凝剂,其包含亚微米级带电粒子和在带电粒子存在下聚合的聚合物,其中杂化聚合物絮凝剂的特性粘度小于930ml / g。 提供了一种从包含在水中的细分散固体的悬浮液产生自由排出的絮凝沉淀物的方法。 该方法包括以增加的浓度将带电粒子聚合物杂化物(CPPH)絮凝剂分散到悬浮液中以确定CPPH絮凝剂的起始平台浓度,其中观察到所产生的絮凝物的固体负载量不再进一步增加。 然后,悬浮液中分散的CPPH絮凝剂的浓度保持在起始平台浓度以上。 还提供了一种从包含细分散的固体在水中的悬浮液中分离细小固体和水的方法。 该方法包括以增加的浓度将带电粒子聚合物杂化物(CPPH)絮凝剂分散到悬浮液中以确定CPPH絮凝剂的起始平台浓度,其中观察到所产生的絮凝物的固体负载浓度没有进一步增加。 然后,悬浮液中分散的CPPH絮凝剂的浓度保持在起始平台浓度以上。 搅拌CPPH絮凝剂在悬浮液中的分散体,然后将固体絮凝物与上清液分离。
-
公开(公告)号:US06783633B2
公开(公告)日:2004-08-31
申请号:US09929092
申请日:2001-08-15
申请人: Alexander Joseph Babchin , Jian-Yang Yuan , Ezra Eddy Isaacs , Haibo Huang , Ross Sam Chow , Richard Anthony McFarlane , Dmytro Vassily Prudkyy
发明人: Alexander Joseph Babchin , Jian-Yang Yuan , Ezra Eddy Isaacs , Haibo Huang , Ross Sam Chow , Richard Anthony McFarlane , Dmytro Vassily Prudkyy
IPC分类号: B01J1908
CPC分类号: B01J19/087 , B01J19/008 , B01J2219/00063 , B01J2219/00164 , B01J2219/002 , B01J2219/00202 , B01J2219/0024 , B01J2219/0809 , B01J2219/0816 , B01J2219/082 , B01J2219/0828 , B01J2219/083 , B01J2219/0877
摘要: This invention relates to the enhancement of chemical reactions by applying a high frequency electric field to a material. The frequency and amplitude of the electric field are selected in accordance with the properties of the reacting components in the bulk of chemical reactor. In general, the high frequency range is determined by the dielectric properties of reactant(s), that is, at any given temperature, when, for example, the specific conductivity starts to grow from its low frequency value. Typically, frequencies in the range of 100 kHz to 200 MHz or greater are suitable for the enhancement of the reactions. An electric field of any shape having Fourier components that when applied to a chemical process exhibits growth in the real part of conductivity relative to the low frequency value is of particular importance.
摘要翻译: 本发明涉及通过向材料施加高频电场来增强化学反应。 电场的频率和振幅根据化学反应堆体积中反应组分的性质进行选择。 通常,高频范围由反应物的介电性质决定,即在任何给定的温度下,例如当比电导率从其低频值开始增长时。 通常,100kHz至200MHz或更大范围内的频率适合于增强反应。 具有傅立叶分量的任何形状的电场,当应用于化学过程时,相对于低频值而言,传导性的实际部分的增长是特别重要的。
-
公开(公告)号:US20110135797A1
公开(公告)日:2011-06-09
申请号:US12858758
申请日:2010-08-18
申请人: Haihong LI , Zhiang ZHOU , Ross Sam CHOW , Pablo CONTRERAS
发明人: Haihong LI , Zhiang ZHOU , Ross Sam CHOW , Pablo CONTRERAS
CPC分类号: C02F1/56 , B01D21/01 , B01D2221/04 , C02F1/5236
摘要: A method is taught for producing freely draining flocculated sediment from a suspension comprising finely divided solids in water. The method comprises dispersing, at increasing concentrations, a charged particle hybrid polymer (CPHP) flocculant into the suspension to determine a minimum concentration of CPHP flocculant above which a freely draining flocculated sediment is produced that has a minimum permeability of 1 Darcy. Then, the concentration of dispersed CPHP flocculant in the suspension is maintained at or above the minimum concentration.A method is further provided for separating fine solids and water from a suspension comprising finely divided solids in water. The method involves dispersing, at increasing concentrations, a charged particle hybrid polymer (CPHP) flocculant into the suspension to determine a minimum concentration of CPHP flocculant above which a freely draining flocculated sediment is produced that has a minimum permeability of 1 Darcy. Then, the concentration of dispersed CPHP flocculant in the suspension is maintained at or above the minimum concentration. The dispersion of CPHP flocculant in the suspension is agitated and the solid floccules are then separated from the supernatant liquid.
摘要翻译: 教导了一种从包含细分散在水中的固体的悬浮液中产生自由排出的絮凝沉淀物的方法。 该方法包括以增加的浓度将带电粒子杂化聚合物(CPHP)絮凝剂分散到悬浮液中以确定CPHP絮凝剂的最小浓度,在该浓度下,产生具有最小渗透性为1达西的自由排出的絮凝沉积物。 然后,悬浮液中分散的CPHP絮凝剂的浓度保持在或低于最低浓度。 还提供了一种从包含细分散的固体在水中的悬浮液中分离细小固体和水的方法。 该方法包括以增加的浓度将带电粒子杂化聚合物(CPHP)絮凝剂分散到悬浮液中以确定CPHP絮凝剂的最小浓度,其中产生具有最小渗透性为1达西的自由排出的絮凝沉积物。 然后,悬浮液中分散的CPHP絮凝剂的浓度保持在或低于最低浓度。 搅拌CPHP絮凝剂在悬浮液中的分散液,然后将固体絮凝物与上清液分离。
-
公开(公告)号:US07507317B2
公开(公告)日:2009-03-24
申请号:US10879014
申请日:2004-06-30
申请人: Alexander Joseph Babchin , Jian-Yang Yuan , Ezra Eddy Isaacs , Haibo Huang , Ross Sam Chow , Richard Anthony McFarlane , Dmytro Vassily Prudkyy
发明人: Alexander Joseph Babchin , Jian-Yang Yuan , Ezra Eddy Isaacs , Haibo Huang , Ross Sam Chow , Richard Anthony McFarlane , Dmytro Vassily Prudkyy
IPC分类号: B01J19/08
CPC分类号: B01J19/087 , B01J19/008 , B01J2219/00063 , B01J2219/00164 , B01J2219/002 , B01J2219/00202 , B01J2219/0024 , B01J2219/0809 , B01J2219/0816 , B01J2219/082 , B01J2219/0828 , B01J2219/083 , B01J2219/0877
摘要: This invention relates to the enhancement of chemical reactions by applying a high frequency electric field to a material. The frequency and amplitude of the electric field are selected in accordance with the properties of the reacting components in the bulk of chemical reactor. In general, the high frequency range is determined by the dielectric properties of reactant(s), that is, at any given temperature, when, for example, the specific conductivity starts to grow from its low frequency value. Typically, frequencies in the range of 100 kHz to 200 MHz or greater are suitable for the enhancement of the reactions. An electric field of any shape having Fourier components that when applied to a chemical process exhibits growth in the real part of conductivity relative to the low frequency value is of particular importance.
-
-
-