安全与环境学报
安全與環境學報
안전여배경학보
JOURNAL OF SAFETY AND ENVIRONMENT
2010年
1期
60-63
,共4页
水文学%饱水土柱试验%水岩作用%质量平衡模拟%粉煤灰
水文學%飽水土柱試驗%水巖作用%質量平衡模擬%粉煤灰
수문학%포수토주시험%수암작용%질량평형모의%분매회
hydrology%experiment of saturated column%water-rock interaction%mass balance simulation%fly-ash
为明确粉煤灰浸出液对地下水环境的影响,依据饱水土柱试验,利用质量平衡模型,对比研究了灞桥电厂粉煤灰浸出液和清水入渗土壤过程中的水岩作用.研究表明,虽然粉煤灰浸出液和清水入渗土柱的渗出液水化学特征存在明显差异,但入渗水的水质对渗出液的时间变异性影响较小.矿物的溶解沉淀作用及Ca-Na离子交换等水岩作用对浸出液和清水入渗过程中的化学反应及水化学形成产生重要影响.高浓度的粉煤灰浸出液比清水溶解了土壤中更多的可溶盐,使土壤的渗透系数增大,增加了地下水污染风险.
為明確粉煤灰浸齣液對地下水環境的影響,依據飽水土柱試驗,利用質量平衡模型,對比研究瞭灞橋電廠粉煤灰浸齣液和清水入滲土壤過程中的水巖作用.研究錶明,雖然粉煤灰浸齣液和清水入滲土柱的滲齣液水化學特徵存在明顯差異,但入滲水的水質對滲齣液的時間變異性影響較小.礦物的溶解沉澱作用及Ca-Na離子交換等水巖作用對浸齣液和清水入滲過程中的化學反應及水化學形成產生重要影響.高濃度的粉煤灰浸齣液比清水溶解瞭土壤中更多的可溶鹽,使土壤的滲透繫數增大,增加瞭地下水汙染風險.
위명학분매회침출액대지하수배경적영향,의거포수토주시험,이용질량평형모형,대비연구료파교전엄분매회침출액화청수입삼토양과정중적수암작용.연구표명,수연분매회침출액화청수입삼토주적삼출액수화학특정존재명현차이,단입삼수적수질대삼출액적시간변이성영향교소.광물적용해침정작용급Ca-Na리자교환등수암작용대침출액화청수입삼과정중적화학반응급수화학형성산생중요영향.고농도적분매회침출액비청수용해료토양중경다적가용염,사토양적삼투계수증대,증가료지하수오염풍험.
The present paper is aimed to disclose the water-rock interactive effect of fly-ash leachate on the groundwater quality. For this purpose, we have performed the saturated sandy loam column correlation experiment in the laboratory condition in 12 days. By using the experiment with the fly-ash leachate in Baqiao power plant and clean water as the contrast media, we have studied the mechanism of water-rock interactive infiltration through the soil. The hydro-chemical simulation study has been focused on the analysis of the chemical characteristics of the leachate derived from the column A and column B, which may account for the reaction mechanism of the water-rock interaction of the leachate in the soil. Remarkable difference has been found as the experimental results between the hydro-chemical components of fly-ash leachate and the quality of clean water;however, little variation can be detected due to the infiltration or the clean water infiltration through the soil. The geochemical modeling approach has been used to predict the chemical reaction in the water-rock interaction to the water composition by PHREEQC software. Thus, it can be said that the simulation seems likely to lead to the following probabilities: water-rock interaction of dissolution/deposition of the mineral in the soil and the Ca-Na cation exchange may have important effect on the chemical reaction in the process of the fly-ash leachate or clean water infiltration through soil, in which different chemical reactions may account for the product of different hydro-chemical components in the leachate. As the same time, fly-ash leachate tends to result in more water than the clean water in the process of infiltration through the sandy loam column. Since in 12 days, it is possible for the fly-ash leachate to dissolute more dissoluble salt than the clean water, the permeability coefficient is likely to get bigger during the fly-ash leachate infiltration through the soil than during the clean water infiltration through the sandy loam. Thus, it can be concluded that bigger permeability coefficient in the fly-ash field is likely to account for the pollution hazard of the groundwater when the fly-ash leachate infiltrates into it with the time going on.