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    • 2. 发明公开
    • 전기역학적 방법에 의한 퇴적토에서의 중금속 제거 방법
    • 使用电动机从重物中除去重金属的方法
    • KR1020100094839A
    • 2010-08-27
    • KR1020090014014
    • 2009-02-19
    • 금오공과대학교 산학협력단주식회사 에코필
    • 백기태류병곤박성우조정민김경조양중석고성환
    • B09C1/00C25B9/00
    • B09C1/085A62D3/11C25B9/04
    • PURPOSE: A method for removing heavy metals from sediments is provided to remove heavy metals from sediments including the heavy metals to have useful resources and similar soil. CONSTITUTION: Sediments including heavy metals are inputted to an electrokinetic purification system including an anion room with an anion and a cathode room with a cathode. The current is supplied to the electrode to make current density of 0.1 to 2 mA/cm^2 or voltage slant of 0.1 to 2 V/cm and circulated water is supplied to the anode room or cathode room. The cadmium, copper, lead, chrome, zinc are moved to anode or cathode from the sediments by electro-osmotic, electro-phoresis, and electro-migration phenomenons under an electric field. The anode is a titanium electrode coated with platinum. The cathode is a graphite electrode. The nitric acid solution is circulated in the cathode room.
    • 目的:提供从沉积物中去除重金属的方法,从重金属沉积物中除去重金属,以获得有用的资源和类似的土壤。 构成:包括重金属在内的沉积物被输入电动净化系统,其中包括具有阴离子的阴离子室和具有阴极的阴极室。 向电极供给电流,使电流密度为0.1〜2mA / cm ^ 2,电压斜率为0.1〜2V / cm,向阳极室或阴极室供给循环水。 镉,铜,铅,铬,锌通过电渗透,电泳和电迁移现象从沉积物移动到阳极或阴极。 阳极是涂有铂的钛电极。 阴极是石墨电极。 硝酸溶液在阴极室中循环。
    • 4. 发明公开
    • 전력저감형 전기역학적 토양 정화 방법
    • 使用开关电源的能量效应电动自动补救系统
    • KR1020110093349A
    • 2011-08-18
    • KR1020100013337
    • 2010-02-12
    • 금오공과대학교 산학협력단주식회사 에코필
    • 백기태류병곤김도형김경조박근용박선영고성환정홍배
    • B09C1/06A62D3/11
    • B09C1/085A62D3/11
    • PURPOSE: A power reducing type electrokinetic soil purifying method is provided to maintain soil purifying performance and reduce power consumption by periodically repeating the supplying state of power. CONSTITUTION: A power supplying unit(10) fixes a positive electrode part(20) and a negative electrode part(30) at opposite positions. Contaminated soil is arranged between the positive electrode part and the negative electrode part. The positive electrode part supplies an electrolytic solution. A power supplying process continuously repeats power-on time and power-off time. The power-on time and the power-off time respectively maintains for 1 to 2 seconds. In the power supplying process, the current density of power is between 0.1mA/cm^2 to 10mA/cm^2 or the voltage slope of the power is between 0.1 and 10V/cm.
    • 目的:通过定期重复电源供应状态,提供减压式电动土壤净化方法,保持土壤净化性能,降低功耗。 构成:电源单元(10)将正极部(20)和负极部(30)固定在相对的位置。 污染土壤布置在正极部分和负极部分之间。 正极部供给电解液。 供电过程连续重复上电时间和断电时间。 上电时间和断电时间分别保持1〜2秒。 在供电过程中,电流的电流密度为0.1mA / cm 2〜10mA / cm 2,电源的电压斜率为0.1〜10V / cm。
    • 6. 发明授权
    • 세척기술과 동전기 기술을 결합한 티피에이치 오염 토양의정화
    • 通过组合土壤洗涤和电动技术对TPH污染土壤的补救
    • KR100856909B1
    • 2008-09-05
    • KR1020080050144
    • 2008-05-29
    • 금오공과대학교 산학협력단주식회사 에코필
    • 백기태전칠성박성우류병곤조정민고성환송현주심두섭김용현구본삼정홍배박재현
    • B09C1/08B09C1/02
    • B09C1/02A62D3/11B09C1/085
    • A remediation method of TPH-contaminated soil by a combination of soil washing and electrokinetic technique is provided to minimize the generation of waste from the treatment of the contaminated soil by easily removing contaminants from clayey soil using advantages of electrokinetic remediating technique after promptly removing oil from sandy soil while performing a wet process of separating particle sizes of oil-contaminated soil. A method for the remediation of TPH(total petroleum hydrocarbon)-contaminated soil comprises the steps of: treating the TPH-contaminated soil by soil washing and performing a wet process of separating particle sizes of the TPH-contaminated soil to separate remediated sandy soil with a particle size of at least 0.1 mm and non-remediated fine soil with a particle size of less than 0.1 mm from the TPH-contaminated soil; injecting the separated fine soil that has not been remediated by soil washing into a vessel in which an anode chamber having an anode formed at both ends thereof and a cathode chamber having a cathode formed at both ends thereof are formed; and supplying an electric current to the electrodes to obtain a current density of 0.1 to 10 mA/cm^2 or a voltage ramp of 0.1 to 10 V/cm, supplying a washing solution containing an electrolyte to the anode chamber, and moving the electrolyte-containing washing solution through the fine soil by an electric field of the cathode chamber to remediate the TPH-contaminated soil. Further, the electrolyte is MgSO4, NaOH, NaCl or NaNO3.
    • 提供了通过土壤清洗和电动力技术相结合的TPH污染土壤的补救方法,以便通过电动修复技术的优点,在迅速从油中去除油后,通过轻松去除粘土土壤中的污染物,最大限度地减少污染土壤处理废物的产生 沙土,同时进行分离污染土壤的颗粒大小的湿法。 修复TPH(总石油烃)污染土壤的方法包括以下步骤:通过土壤清洗处理受TPH污染的土壤,并进行湿法分离TPH污染土壤的颗粒大小,分离修复后的沙土 颗粒尺寸至少为0.1毫米,未经修复的细土,具有小于0.1毫米的TPH污染土壤; 将没有通过土壤清洗补充的分离的细土壤注入形成有在其两端形成阳极的阳极室和形成在其两端的阴极的阴极室的容器中; 向电极供给电流以获得0.1至10mA / cm 2的电流密度或0.1至10V / cm的电压斜坡,将含有电解质的洗涤溶液供应到阳极室,并移动电解质 通过阴极室的电场通过细土壤清洗溶液,以修复受TPH污染的土壤。 此外,电解质是MgSO 4,NaOH,NaCl或NaNO 3。
    • 7. 发明授权
    • 세척기술과 전기역학적 정화기술을 결합한 중금속 오염 토양의 정화 방법
    • 使用与电动机组合的土壤清洗从土壤中除去重金属的补救技术
    • KR100928065B1
    • 2009-11-23
    • KR1020090067780
    • 2009-07-24
    • 금오공과대학교 산학협력단주식회사 에코필
    • 백기태박성우류병곤조정민김경조고성환
    • B09C1/08B09C1/06
    • B09C1/02A62D3/11B09C1/085
    • PURPOSE: A purification method for heavy metal contaminated soil using washing techniques and purification techniques is provided to minimize the waste in contaminated soil treatment by removing heavy metal materials in the soil. CONSTITUTION: A purification method for heavy metal contaminated soil using washing techniques and purification techniques includes the following steps of: removing heavy metals while changing a shape of the heavy metals by washing the contaminated soil with an aqueous solution or water; separating the processed soil to fine soil which is not purified and sandy soil; put the unpurified separated fine soil to a container in a cathode chamber and an anode chamber; supplying the liquid containing an electrolyte to the cathode chamber and the anode chamber; adding strong acid, strong base or organic acid and, a surfactant in the liquid; and transferring the electrolyte through the fine soil.
    • 目的:使用洗涤技术和净化技术对重金属污染土壤进行净化处理,通过去除土壤中的重金属材料来最大限度地减少污染土壤处理中的废物。 构成:使用洗涤技术和净化技术对重金属污染土壤进行净化的方法包括以下步骤:通过用水溶液或水洗涤污染的土壤来改变重金属的形状; 将处理后的土壤分离为未纯化的土壤和砂土; 将未纯化的分离的细土置于阴极室和阳极室中的容器中; 将含有电解质的液体供应到阴极室和阳极室; 在液体中加入强酸,强碱或有机酸和表面活性剂; 并将电解质转移通过细土。
    • 10. 发明授权
    • 토양의 염류 제거 장치 및 이를 이용한 액상비료 제조방법
    • 在土壤中去除废物的方法和使用装置制造流体肥料的方法
    • KR101275911B1
    • 2013-06-17
    • KR1020120118790
    • 2012-10-25
    • 주식회사 에코필전북대학교산학협력단
    • 백기태조성웅유종찬박상민이차돌정지민고성환정홍배
    • B09C1/00B09C1/02C05D9/00
    • B09C1/085C05C7/00C05D1/00C05D5/00C05D9/00
    • PURPOSE: A manufacturing method of liquid fertilizer using a soil salt removing apparatus is provided to manufacture the liquid fertilizer of which the pH is neutral by collecting anions and cations through flowing a basic or acidic solution to an ion exchange resin in which electrokinetic remediation has been completed. CONSTITUTION: A manufacturing method of liquid fertilizer using a soil salt removing apparatus comprises the following steps: Electrokinetic remediation comprises a cation electrode(10), an anion electrode(20), an anion exchange resin(12a) connected to the cationic electrode and a cationic exchange resin(22a) connected to the anionic electrode. a step of flowing a basic solution to the anion exchange resin in which the electrokinetic remediation has been completed, and an acidic solution to the cationic exchange resin; a step of collecting a solution containing anions recovered from the anionic exchange resin and cations recovered from the cationic exchange resin; a step of mixing the solution containing anions and the solution containing cations to make pH neutral; and a step of producing a liquid fertilizer using the mixed solution. [Reference numerals] (AA) Soil; (BB) Anionic exchange resin; (CC) Cationic exchange resin
    • 目的:提供一种使用土壤盐分除去装置的液体肥料的制造方法,通过将碱性或酸性溶液流过离子交换树脂,通过收集阴离子和阳离子来制造pH为中性的液体肥料, 完成。 构成:使用土壤除盐装置的液体肥料的制造方法包括以下步骤:电动修复包括阳离子电极(10),阴离子电极(20),连接到阳离子电极的阴离子交换树脂(12a)和 与阴离子电极连接的阳离子交换树脂(22a)。 将碱性溶液流动到完成电动修复的阴离子交换树脂和向阳离子交换树脂的酸性溶液的步骤; 收集从阴离子交换树脂回收的阴离子和从阳离子交换树脂回收的阳离子的溶液的步骤; 将含有阴离子的溶液和含有阳离子的溶液混合以使pH中和的步骤; 以及使用该混合溶液生产液体肥料的步骤。 (附图标记)(AA)土壤; (BB)阴离子交换树脂; (CC)阳离子交换树脂