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    • 1. 发明授权
    • 지중 지질매체의 산 취약성 평가 방법
    • 地下血脂介质酸脆弱性评估
    • KR101754297B1
    • 2017-07-06
    • KR1020160155297
    • 2016-11-21
    • 한국지질자원연구원
    • 현성필하선진고경석문희선신도연이은희
    • G06Q50/26G05B23/02
    • G06Q50/26G05B23/0221G05B23/0283
    • 본발명은양 배수등급과토양에포함되는광물질에따른산 중화정도의차이를이용하여취약성점수를부여하여저장한후, 지질매체별로산 취약성을평가할수 있도록하는지중지질매체의산 취약성평가장치및 방법에관한것이다. 상기지중지질매체의산 취약성평가방법은, 데이터수집부(6), 산취약성DB부(7), 입력부(10), 평가인자추출부(20), 산취약성점수산출부(30) 및산취약성등급산출부(40))를포함하여구성되는산 취약성평가장치(1)에의한산 취약성평가방법에있어서, 산취약성DB부생성과정(S10); 평가인자별산 취약성점수추출과정(S20); 및산취약성점수산출과정(S30);을포함하여이루어져, 토양별또는지역별산 취약점수를용이하게평가할수 있도록하는것에의해산 누출사고의발생시 방제대책을효율적이고용이하게수립할수 있도록하는효과를제공한다.
    • 本发明是保持给排水率和土壤矿物使用的包括在所述介质的方法和脂质酸脆弱性评估装置中的酸中和度的差脆弱点的量进行评估由脂质介质的酸的脆弱性 Lt。 地下地质介质,所述数据收集单元6的酸的脆弱性评估方法,酸漏洞DB部7,输入部10,评价参数提取单元20,计算单元30,酸的脆弱性得分mitsan漏洞评分 (40)),所述方法包括以下步骤:(S10)生成酸性脆弱性DB部分; 额定因数byeolsan漏洞点提取处理(S20); 提供这样你就可以有效地建立的情况下,控制措施是什么组成的海洋溢油就业的效果,这样你就可以轻松地评估漏洞土壤特异性或地区的高山,其中包括:mitsan漏洞分数计算处理(S30) 的。
    • 2. 发明授权
    • 사이드로포어 함유 토양 세척액을 이용한 중금속으로 오염된 토양의 세척방법 및 중금속으로 오염된 토양의 세척장치
    • 重金属污染土壤洗涤方法使用土壤洗涤溶液,包括边界和重金属污染的土壤洗涤装置
    • KR101349073B1
    • 2014-01-09
    • KR1020130103716
    • 2013-08-30
    • 한국지질자원연구원
    • 문희선정슬기
    • B09C1/10B09C1/02
    • B09C1/10B02C23/08B09C1/02
    • The present invention relates to a heavy metal-contaminated soil washing method using soil washing solution including siderophore and a heavy metal-contaminated soil washing device which is based on the principle that siderophore solubilizes heavy metal by reaction with an insoluble compound including heavy metal or forms a soluble siderophore-heavy metal complex by the direct combination of siderophore and heavy metal. The heavy metal-contaminated soil washing method according to the present invention comprises: a first step for generating siderophore by culturing Pseudomonas aeruginosa in a nutrient solution; a second step for obtaining a first soil washing solution including siderophore by removing Pseudomonas aeruginosa from the nutrient solution; a third step for crushing heavy metal-contaminated soil; a fourth step for washing the soil by mixing the crushed soil with the first soil washing solution; and fifth step for separating, by centrifugation, the first soil washing solution from the soil mixed with the first soil washing solution, wherein in the fourth step, siderophore dissolves heavy metal in the first soil washing solution by reaction with the insoluble compound including heavy metal or dissolves heavy metal by forming the soluble siderophore-heavy metal complex via the direct combination with the heavy metal while the crushed soil is mixed with the first soil washing solution. [Reference numerals] (AA) Start; (BB) End; (S10) Generate siderophore by culturing Pseudomonas aeruginosa in a nutrient solution; (S20) Obtain a first soil washing solution by removing Pseudomonas aeruginosa from the nutrient solution; (S30) Crush heavy metal-contaminated soil; (S40) Wash the soil by mixing the crushed soil with the first soil washing solution; (S50) Separate the first soil washing solution from the soil by centrifugation
    • 本发明涉及一种重金属污染的土壤清洗方法,该方法使用含有铁载体的污物清洗液和重金属污染的土壤清洗装置,其基于铁载体通过与包含重金属或形式的不溶性化合物的反应溶解重金属的原理 通过铁载体和重金属的直接组合可溶性铁载体重金属络合物。 根据本发明的重金属污染土壤清洗方法包括:通过在营养液中培养绿脓假单胞菌产生铁载体的第一步骤; 第二步,通过从营养液中除去铜绿假单胞菌获得包含铁载体的第一污垢清洗液; 破碎重金属污染土壤的第三步; 通过将破碎的土壤与第一污垢清洗溶液混合来洗涤土壤的第四步骤; 以及第五步骤,通过离心分离第一污垢洗涤溶液与第一土壤洗涤溶液混合的土壤,其中在第四步中,铁载体溶液通过与包括重金属在内的不溶性化合物的反应溶解第一土壤洗涤溶液中的重金属 或通过与重金属的直接组合形成可溶性铁载体重金属络合物,同时将破碎的土壤与第一污垢清洗溶液混合,来溶解重金属。 (附图标记)(AA)开始; (BB)结束; (S10)通过在营养液中培养铜绿假单胞菌生成铁载体; (S20)从营养液中除去绿脓假单胞菌获得第一污垢清洗液; (S30)粉碎重金属污染土壤; (S40)通过将破碎的土壤与第一种土壤洗涤溶液混合来洗涤土壤; (S50)通过离心分离第一个土壤清洗溶液与土壤
    • 3. 发明授权
    • 식물정화공법용 사이드로포어 함유 배양 여과액, 그 제조방법 및 이를 이용한 중금속 오염토양의 식물정화공법
    • 包括用于植物的土壤的中等过滤器,其制备方法和使用其的重金属污染土壤的物理化学
    • KR101386456B1
    • 2014-04-21
    • KR1020130120358
    • 2013-10-10
    • 한국지질자원연구원
    • 문희선정슬기
    • B09C1/10C12N1/20
    • B09C1/10A62D3/02C12N1/20
    • The present invention relates to a culture filtrate containing siderophore which contains siderophore secreted by a microorganism and which is used for a phytoremediation process for the purification of heavy metal-contaminated soil, and to a phytoremediation process for the purification of heavy metal-contaminated soil using the culture filtrate containing siderophore. The culture filtrate containing siderophore used for a phytoremediation process according to the present invention increases the bioavailability of heavy metals if the culture filtrate containing siderophore is injected into heavy metal-contaminated soil, thereby promoting the growth of plants planted in heavy metal-contaminated soil as well as remarkably reducing the time required for the purification of heavy metal-contaminated soil compared to a prior technique. Therefore, the culture filtrate containing siderophore can be useful in the purification of heavy metal-contaminated soil using the phytoremediation process. [Reference numerals] (AA) Start; (BB) End; (S10) Culture a siderophore-secreting microorganism in a culture medium to generate siderophore; (S20) Remove the microorganism from the culture medium to obtain a culture filtrate containing siderophore; (S30) Inject the culture filtrate containing siderophore into heavy metal-contaminated soil in which plants are planted
    • 本发明涉及含有铁载体的培养物滤液,其含有由微生物分泌的铁载体,其用于净化重金属污染土壤的植物修复过程,以及用于净化重金属污染土壤的植物修复方法,其使用 含有铁载体的培养滤液。 如果含有铁载体的培养滤液被注入重金属污染的土壤中,则含有根据本发明的植物修复过程的铁载体培养物滤液增加了重金属的生物利用度,从而促进植被在重金属污染土壤中的植物的生长 而且与以前的技术相比,显着减少了重金属污染土壤净化所需的时间。 因此,含有铁载体的培养滤液可用于使用植物修复过程净化重金属污染土壤。 (附图标记)(AA)开始; (BB)结束; (S10)在培养基中培养铁载体分泌微生物以产生铁载体; (S20)从培养基中除去微生物,得到含有铁载体的培养液; (S30)将含有铁载体的培养滤液注入重金属污染的土壤中,种植植物