This study investigated coal-mine drainage(AMD)and municipal wastewater(MWW)contaminant concentrations and conducted the combined treatment in phases I and II:phase I,evaluating the effects of mixing the two based on ...This study investigated coal-mine drainage(AMD)and municipal wastewater(MWW)contaminant concentrations and conducted the combined treatment in phases I and II:phase I,evaluating the effects of mixing the two based on the extent of acid neutralization and metals removal;phase II:conducting anaerobic batch reactor treatment of AMD and MWW under varying COD/sulfate ratios(0.04-5.0).In phase I,acid mine drainage water quality conditions are as follows:pH 4.5,acidity 467.5 mg/L as CaCO3,alkalinity 96.0 mg/L as CaCO3,Cl-11.8 mg/L,SO42-1722 mg/L,TDS 2757.5 mg/L,TSS 9.8 mg/L,BOD 14.7 mg/L,Fe 138.1 mg/L,Mg 110.8 mg/L.Mn 7.5 mg/L,Al 8.1 mg/L,Na 114.2 mg/L,and Ca 233.5 mg/L.Results of the mixing experiments indicated significant removal of selected metals(Fe 85~98%,Mg 0~65%,Mn 63~89%,Al 98~99%,Na 0~30%),acidity(77~95%)from the mine water and pH was raised to above 6.3.The Phase II results suggested under the wide range of COD/sulfate ratios,COD and sulfate removal varied from 37.4%-100%and 0%-93.5%respectively.During biological treatment,alkalinity was generated which leads to pH increase to around 7.6-8.5.The results suggested feasibility of the proposed technology for co-treatment of AMD and MWW.A conceptual design of co-treatment system which is expected to remove a matrix of pollutants has been provided to utilize all the locally available water resources to achieve the optimum treatment efficiency.The technology also offers an opportunity to significantly reduce capital and operating costs compared to the existing treatment methodologies used.Featured Application:In this study,we have measured the concentrations of contaminants in acid mine drainage(AMD)and municipal wastewater(MWW)and conducted the combined treatment in phases I and II.This is significant because in previous years there was a massive fish kill that is linked to the high total dissolved solids(TDS)and salinity content in the water.With the current proposed combined treatment technology,it shows high potential in reducing TDS and salinity content in the combined wastewater which will prevent similar accident(Dunkard creek fish kill in 2019)happening again.展开更多
Multiple types of oil inclusions with different fluorescence colors have been detected in the northern Dongpu depression.Recent evidences show that these inclusions may have been trapped simultaneously or during a ver...Multiple types of oil inclusions with different fluorescence colors have been detected in the northern Dongpu depression.Recent evidences show that these inclusions may have been trapped simultaneously or during a very short period.Therefore,whether these oils were mixed before trapping is unknown.In this study,we analyzed the petrography and fluorescence spectral characteristics of oil inclusions in the Wenliu uplift in the northern Dongpu depression,and assessed the data with the oil mixing ratio curve obtained in the previous experiment.The results show that there are three types of oil inclusions(type I,type II and type III)with yellow,green and blue fluorescence colors,corresponding to low-mature,medium-mature and high-mature oil,respectively.The"pure"oil inclusions,do exist in type II and type III group of oil inclusions,showing the medium-mature oil was generated from the source rock rather than being formed by the mixture of high-mature and low-mature end oils.Most of the oil inclusions are mixtures of high-mature and medium-mature end oils from the sub-sags to the Wenliu uplift,the mixing degree increases to close to 50%.The oil between the Qianliyuan sub-sag and the Wenliu uplift was mainly mixed by medium mature oils,whereas the oil between the Liutun sub-sag and the Wenliu uplift was mainly mixed by high mature oil.展开更多
文摘This study investigated coal-mine drainage(AMD)and municipal wastewater(MWW)contaminant concentrations and conducted the combined treatment in phases I and II:phase I,evaluating the effects of mixing the two based on the extent of acid neutralization and metals removal;phase II:conducting anaerobic batch reactor treatment of AMD and MWW under varying COD/sulfate ratios(0.04-5.0).In phase I,acid mine drainage water quality conditions are as follows:pH 4.5,acidity 467.5 mg/L as CaCO3,alkalinity 96.0 mg/L as CaCO3,Cl-11.8 mg/L,SO42-1722 mg/L,TDS 2757.5 mg/L,TSS 9.8 mg/L,BOD 14.7 mg/L,Fe 138.1 mg/L,Mg 110.8 mg/L.Mn 7.5 mg/L,Al 8.1 mg/L,Na 114.2 mg/L,and Ca 233.5 mg/L.Results of the mixing experiments indicated significant removal of selected metals(Fe 85~98%,Mg 0~65%,Mn 63~89%,Al 98~99%,Na 0~30%),acidity(77~95%)from the mine water and pH was raised to above 6.3.The Phase II results suggested under the wide range of COD/sulfate ratios,COD and sulfate removal varied from 37.4%-100%and 0%-93.5%respectively.During biological treatment,alkalinity was generated which leads to pH increase to around 7.6-8.5.The results suggested feasibility of the proposed technology for co-treatment of AMD and MWW.A conceptual design of co-treatment system which is expected to remove a matrix of pollutants has been provided to utilize all the locally available water resources to achieve the optimum treatment efficiency.The technology also offers an opportunity to significantly reduce capital and operating costs compared to the existing treatment methodologies used.Featured Application:In this study,we have measured the concentrations of contaminants in acid mine drainage(AMD)and municipal wastewater(MWW)and conducted the combined treatment in phases I and II.This is significant because in previous years there was a massive fish kill that is linked to the high total dissolved solids(TDS)and salinity content in the water.With the current proposed combined treatment technology,it shows high potential in reducing TDS and salinity content in the combined wastewater which will prevent similar accident(Dunkard creek fish kill in 2019)happening again.
基金the National Natural Science Foundation of China(No.41730421)the Major Science and Technology Project of SINOPEC during the 13th Five-Year Plan period(No.ZDP1705)。
文摘Multiple types of oil inclusions with different fluorescence colors have been detected in the northern Dongpu depression.Recent evidences show that these inclusions may have been trapped simultaneously or during a very short period.Therefore,whether these oils were mixed before trapping is unknown.In this study,we analyzed the petrography and fluorescence spectral characteristics of oil inclusions in the Wenliu uplift in the northern Dongpu depression,and assessed the data with the oil mixing ratio curve obtained in the previous experiment.The results show that there are three types of oil inclusions(type I,type II and type III)with yellow,green and blue fluorescence colors,corresponding to low-mature,medium-mature and high-mature oil,respectively.The"pure"oil inclusions,do exist in type II and type III group of oil inclusions,showing the medium-mature oil was generated from the source rock rather than being formed by the mixture of high-mature and low-mature end oils.Most of the oil inclusions are mixtures of high-mature and medium-mature end oils from the sub-sags to the Wenliu uplift,the mixing degree increases to close to 50%.The oil between the Qianliyuan sub-sag and the Wenliu uplift was mainly mixed by medium mature oils,whereas the oil between the Liutun sub-sag and the Wenliu uplift was mainly mixed by high mature oil.