岩石力学与工程学报
巖石力學與工程學報
암석역학여공정학보
CHINESE JOURNAL OF ROCK MECHANICS AND ENGINEERING
2015年
z1期
3381-3388
,共8页
汪龙%方祥位%申春妮%李春海%姚志华
汪龍%方祥位%申春妮%李春海%姚誌華
왕룡%방상위%신춘니%리춘해%요지화
土力学%膨润土-砂%混合型缓冲/回填材料%渗气系数%掺砂率%干密度%含水率
土力學%膨潤土-砂%混閤型緩遲/迴填材料%滲氣繫數%摻砂率%榦密度%含水率
토역학%팽윤토-사%혼합형완충/회전재료%삼기계수%참사솔%간밀도%함수솔
soil mechanics%bentonite-sand%buffer/backfilling materials%gas permeability coefficient%sand mix ratios%dry density%water content
为研究高庙子膨润土–砂混合型缓冲/回填材料的渗气规律,利用改进的三轴渗气试验装置,对不同掺砂率、干密度和含水率的混合物试样进行一系列试验研究。结果表明:在试验研究的条件范围内,膨润土–砂混合物(含纯膨润土)的渗气系数为3.9×10-4~2.1×10-2 cm/s;膨润土–砂混合物的渗气规律遵循Darcy定律,但较高的气压力梯度对渗气系数值存在一定的影响;掺砂率、干密度和含水率均对混合物的渗气性质有影响,混合物的渗气系数随掺砂率增加呈指数形式增加,随干密度和含水率增加呈指数形式降低;在试验研究范围内建立了考虑不同条件下的混合物渗气系数的公式,与试验结果吻合较好。得到的一系列试验数据能为我国高放废物地质处置库的建设提供科学依据。
為研究高廟子膨潤土–砂混閤型緩遲/迴填材料的滲氣規律,利用改進的三軸滲氣試驗裝置,對不同摻砂率、榦密度和含水率的混閤物試樣進行一繫列試驗研究。結果錶明:在試驗研究的條件範圍內,膨潤土–砂混閤物(含純膨潤土)的滲氣繫數為3.9×10-4~2.1×10-2 cm/s;膨潤土–砂混閤物的滲氣規律遵循Darcy定律,但較高的氣壓力梯度對滲氣繫數值存在一定的影響;摻砂率、榦密度和含水率均對混閤物的滲氣性質有影響,混閤物的滲氣繫數隨摻砂率增加呈指數形式增加,隨榦密度和含水率增加呈指數形式降低;在試驗研究範圍內建立瞭攷慮不同條件下的混閤物滲氣繫數的公式,與試驗結果吻閤較好。得到的一繫列試驗數據能為我國高放廢物地質處置庫的建設提供科學依據。
위연구고묘자팽윤토–사혼합형완충/회전재료적삼기규률,이용개진적삼축삼기시험장치,대불동참사솔、간밀도화함수솔적혼합물시양진행일계렬시험연구。결과표명:재시험연구적조건범위내,팽윤토–사혼합물(함순팽윤토)적삼기계수위3.9×10-4~2.1×10-2 cm/s;팽윤토–사혼합물적삼기규률준순Darcy정률,단교고적기압력제도대삼기계수치존재일정적영향;참사솔、간밀도화함수솔균대혼합물적삼기성질유영향,혼합물적삼기계수수참사솔증가정지수형식증가,수간밀도화함수솔증가정지수형식강저;재시험연구범위내건립료고필불동조건하적혼합물삼기계수적공식,여시험결과문합교호。득도적일계렬시험수거능위아국고방폐물지질처치고적건설제공과학의거。
The improved triaxial gas permeable apparatus device was employed to conduct a series of experiments for sample of mixture with different sand ratios,dry densities and water contents in order to study the law of gas permeability of GMZ bentonite-sand mixture buffer/backfill materials. The result shows that within the range of experimental condition,the gas permeability coefficient of bentonite-sand mixture(including pure bentonite) is between 3.9×10?4–2.1×10?2 cm/s. Gas flow of bentonite-sand mixture materials can be expressed by Darcy law, but higher gas pressure gradient has certain influence to figure of gas permeability coefficient,and sand ratio,dry density and water content have effect on gas permeability of mixture respectively. The gas permeability ratio of mixture increases exponentially with the increase of sand ratio,while decreases exponentially with the increase of dry density and water content. The gas permeability coefficient formulas of mixture under different conditions were set up within the range of experimental research,which coincide well with the experimental result. A set of experimental data can provide scientific basis for the construction of HLW(high-level radioactive waste) geological disposal in China.
