Enhanced phytoremediation of petroleum-contaminated soil by biochar and urea.

Removal of organochlorine pesticides and metagenomic analysis by multi-stage constructed wetland treating landfill leachate.

Metagenomic insight of corn straw conditioning on substrates metabolism during coal anaerobic fermentation

Response of cbbL-harboring microorganisms to precipitation changes in a naturally-restored grassland.

Comparison of the efficiency and microbial mechanisms of chemical- and bio-surfactants in remediation of petroleum hydrocarbon.

The dominant microbial metabolic pathway of the petroleum hydrocarbons in the soil of shale gas field: Carbon fixation instead of CO2 emissions.

The improvement of landfill gas utilization efficiency will produce considerable environmental and economic benefits This study simulated the fermentation of domestic waste through the addition of functional strains The related gas-liquid parameters and microbial community diversity were measured, and the Tax4Fun analysis method was used to predict the methanogenic function of the methanogens The results showed the following: i) Only the addition of Proteiniphilum acetatigenes and Bacteroides thetaiotaomicron produced significant colonization by functional microorganisms and strengthened the decomposition of organic matters in the fermentation system, especially protein, which improved the gas production efficiency The average gas production by the PB (An experimental group only added Proteiniphilum acetatigenes and Bacteroides thetaiotaomicron) group was 135370 mL which was higher than that of the other groups by 1927%–5759% ii) The dominant methanogens were Methanobacterium which mainly produced methane by using hydrogen and carbon dioxide as substrates according to the functional prediction The results of the study reveal the biological strengthening mechanism of domestic waste landfill gas, which is conducive to improving the energy recycling efficiency of landfills

Effects of different functional strains on key metabolic pathways of methanogenesis in the domestic waste fermentation reactor

The objectives of this study were to explore the effects of bulking agent and nutrients on the pore characteristics, remediation efficiency, and biotoxicity of petroleum hydrocarbon-contaminated soil. Furthermore, the correlation among the three characteristic indices was studied. Three pilot-scale biopiles were constructed to treat aged petroleum-contaminated soil. Micro-CT was applied to obtain the pore characteristics of piles. The results showed that the addition of bulking agent had a positive effect on the pore development of the biopile. The porosity of the pile was increased from 0.33 to 3.32% of the control pile to 4.41 to 26.93%, and the addition of bulking agent showed a significant positive effect on the Feret diameter. However, the addition of nutrients had no significant effect on the porosity and Feret diameter. Besides, the total petroleum hydrocarbon removal rate of bulking agent pile (36.82–49.18%) was significantly higher than that of nutrient piles (20.07–23.43%) and control piles (17.57–27.08%). The bulking agent pile had the lowest toxicity. The porosity of the pile, total petroleum hydrocarbons removal rate, and the characteristic values of biotoxicity (EC50) showed a positive correlation. Bulking agents might promote gas circulation by improving the pore structure of the biopile. And the metabolic activity of microorganisms increased as a result of the promotion of the microbial habitat. The higher biodegradation of petroleum hydrocarbons was achieved. However, the main finding of this research is that adding bulk agent to petroleum-contaminated soil significantly increases biodegradation of petroleum. This may be inapplicable to other soils with a different clay content or porosity.

The improvement of pore characteristics, remediation efficiency, and biotoxicity of petroleum-contaminated soil with the addition of bulking agent on field-scale biopile treatment

The invention discloses an oil-based drilling cutting sectional type continuous pyrolysis device which comprises a primary pyrolysis section and a secondary reaction section; a primary heating mechanism is arranged outside the primary pyrolysis section, the secondary reaction section comprises an upper catalytic section and a lower secondary pyrolysis section, a catalytic heating mechanism is arranged outside the catalytic section, and a pyrolysis heating mechanism is arranged outside the secondary pyrolysis section; a feeding hole is formed in one end of the primary pyrolysis section, a primary pyrolysis gas outlet and a scattering mechanism are arranged at the other end of the primary pyrolysis section, and the scattering mechanism is connected to a part, between the catalytic section and the secondary pyrolysis section, of the secondary reaction section; a catalyst mechanism is arranged in the catalytic section, a catalytic cracking gas outlet is formed in the top of the catalytic section, and a residue collecting container is arranged at the bottom of the secondary pyrolysis section The invention also discloses a pyrolysis method The recovery rate of oil gas can be increased,the oil content in the oil-based drilling cutting residues is reduced, meanwhile, the oil gas subjected to pyrolysis separation is subjected to catalytic cracking, an oil gas product with light components is obtained, and the recovery rate of high-grade oil is increased

Oil-based drilling cutting sectional type continuous pyrolysis device and pyrolysis method

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Papers

The dominant microbial metabolic pathway of the petroleum hydrocarbons in the soil of shale gas field: Carbon fixation instead of CO2 emissions.

Effects of different functional strains on key metabolic pathways of methanogenesis in the domestic waste fermentation reactor

The improvement of pore characteristics, remediation efficiency, and biotoxicity of petroleum-contaminated soil with the addition of bulking agent on field-scale biopile treatment

Oil-based drilling cutting sectional type continuous pyrolysis device and pyrolysis method