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Volume 39 Issue 3
Jul.  2021
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Article Contents
LI Liang, JIN Rong, LIU Chen, LI Chao-hui, WANG Xue-feng. LEACHING AND DISSOLVING CHARACTERISTICS OF OIL SHALE RETORTING SOLID WASTE FROM FUSHUN WEST OPEN PIT[J]. ENVIRONMENTAL ENGINEERING , 2021, 39(3): 183-188. doi: 10.13205/j.hjgc.202103026
Citation: LI Liang, JIN Rong, LIU Chen, LI Chao-hui, WANG Xue-feng. LEACHING AND DISSOLVING CHARACTERISTICS OF OIL SHALE RETORTING SOLID WASTE FROM FUSHUN WEST OPEN PIT[J]. ENVIRONMENTAL ENGINEERING , 2021, 39(3): 183-188. doi: 10.13205/j.hjgc.202103026

LEACHING AND DISSOLVING CHARACTERISTICS OF OIL SHALE RETORTING SOLID WASTE FROM FUSHUN WEST OPEN PIT

doi: 10.13205/j.hjgc.202103026
  • Received Date: 2020-05-25
    Available Online: 2021-07-19
  • Oil shale is a kind of unconventional oil and gas resource. Nevertheless, the solid waste produced in oil shale retorting caused groundwater pollution when accumulated for a long term. In this experiment, backfill (oil shale retorting solid waste) from Fushun West Open-pit was taken as the research object, under the simulated Fushun precipitation condition, to explore the characteristics of pH, conductivity, SO42-, NO3- in the process of leaching oil shale retort waste residue. The results showed that under acidic condition, the leaching concentration of Ni and Fe in the waste residue exceeded the class Ⅲ in drinking standard specified in the Groundwater Quality Standard (GB/T 14848-2017), which would have a certain impact on the surrounding environment. Moreover, due to plenty of basic oxides, acid oxides and organic matters, oil shale retorting waste residue had strong pH buffer capacity. However, after 5 days of leaching, the pH value dropped sharply to 5.5, which probably caused by the fermentation and decomposition of organic matters in the waste residue to produce small molecular acids. In addition, the dissolution regulation of NO3- had obvious specificity. During leaching process, with the extension of time, the concentration of NO3- gradually decreased under acidic and neutral conditions; while in leaching process, the concentration of NO3- gradually increased to 600 mg/L, and high concentration of NO2- appeared. Due to the anoxic/anaerobic condition of leaching, denitrifying bacteria and other microorganisms in oil shale retorting waste residue might reduce NO3-. Under the action of ammoniating bacteria, nitrite bacteria and nitrate bacteria, organic nitrogen could be gradually oxidized to NH4+, NO2- and NO3-, which led to the accumulation of NO2- and NO3-. Therefore, the dissolution of harmful substances could be reduced by controlling the redox environment of oil shale retorting waste residue.
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