Maribel Pérez‐Corona et al. The Electrokinetic Treatment of Polluted Soil by Hydrocarbon: From Laboratory to Field. (2016) In: Soil Contamination - Current Consequences and Further Solutions pp. 289-305, 3161183
Chapter in Book/Chapter (Chapter in Book)/Scientific[3161183]
  1. Ramirez Diego et al. Maximisation of oil recovery from an oil-water separator sludge: Influence of type, concentration, and application ratio of surfactants. (2018) WASTE MANAGEMENT 0956-053X 82 100-110
    Journal Article/Article (Journal Article)/Scientific[31297575] [Approved]
    Független, Idéző: 31297575, Kapcsolat: 28974826
  2. Ribeiro Alexandra B.. Electrokinetic Remediation for Environmental Security and Sustainability. (2021) ISBN:9781119670117; 9781119670186
    Book/Monograph (Book)/Scientific[31955027] [Approved]
    Független, Idéző: 31955027, Kapcsolat: 29996361
  3. * Gomes Helena I. et al. Combined Use of Remediation Technologies with Electrokinetics. (2021) In: Electrokinetic Remediation for Environmental Security and Sustainability pp. 61-84
    Chapter in Book/Chapter (Chapter in Book)/Scientific[32151569] [Approved]
    Függő, Idéző: 32151569, Kapcsolat: 30271024
  4. Earnden Laura et al. Zein-Bonded Graphene and Biosurfactants Enable the Electrokinetic Clean-Up of Hydrocarbons. (2021) LANGMUIR 0743-7463 1520-5827 37 37 11153-11169
    Journal Article/Article (Journal Article)/Scientific[32494959] [Approved]
    Független, Idéző: 32494959, Kapcsolat: 30862478
I Robles et al. Remediation of Soils and Sediments Polluted with Mercury: Occurence, Transformations, Environmental Consideration and San Joaquin's Sierra Gorda Case. (2014) In: Environmental Risk Assessment of Soil Contamination pp. 827-850, 3092897
Chapter in Book/Chapter (Chapter in Book)/Scientific[3092897]
  1. Jingying Xua et al. Sources and remediation techniques for mercury contaminated soil. (2015) ENVIRONMENT INTERNATIONAL 0160-4120 74 42-53
    Journal Article/Article (Journal Article)/Scientific[26488567] [Approved]
    Független, Idéző: 26488567, Kapcsolat: 26488567
  2. Ana Teresa Reis et al. Thermo-desorption: A valid tool for mercury speciation in soils and sediments?. (2015) GEODERMA 0016-7061 1872-6259 237-238 98-104
    Journal Article/Article (Journal Article)/Scientific[26488568] [Approved]
    Független, Idéző: 26488568, Kapcsolat: 26488568
  3. Vaselli Orlando et al. Gaseous Elemental Mercury and Total and Leached Mercury in Building Materials from the Former Hg-Mining Area of Abbadia San Salvatore (Central Italy). (2017) INTERNATIONAL JOURNAL OF ENVIRONMENTAL RESEARCH AND PUBLIC HEALTH 1661-7827 1660-4601 14 4 p. 425
    Journal Article/Article (Journal Article)/Scientific[30545376] [Approved]
    Független, Idéző: 30545376, Kapcsolat: 28000590
  4. Zhao Ting et al. Low-thermal remediation of mercury-contaminated soil and cultivation of treated soil. (2018) ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH 0944-1344 1614-7499 25 24 24135-24142
    Journal Article/Article (Journal Article)/Scientific[30545406] [Approved]
    Független, Idéző: 30545406, Kapcsolat: 28000613
  5. Trihadiningrum Yulinah et al. Speciation of Mercury Contaminant in Public Gold Mine Tailing and its Stabilization Using Sulfur and Sulfide. (2019) JOURNAL OF ECOLOGICAL ENGINEERING 2299-8993 20 4 29-34
    Journal Article/Article (Journal Article)/Scientific[30545413] [Approved]
    Független, Idéző: 30545413, Kapcsolat: 28000617
  6. Rudhy HENDARTO. DETERMINATION THE OCCURANCE OF MERCURY IN SOIL IN THE MINING AREA OF ROMANG ISLAND. (2017) Jurnal Geografi : Media Informasi Pengembangan dan Profesi Kegeografian 2549-3094 2549-3078 14 2 84-88
    Journal Article/Article (Journal Article)/Scientific[30545449] [Approved]
    Független, Idéző: 30545449, Kapcsolat: 28000649
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