环境科学研究
環境科學研究
배경과학연구
RSEARCH OF ENUIRONMENTAL SCIENCES
2009年
12期
1440-1444
,共5页
孙静%吴攀%韩志伟%张翅鹏%刘宏
孫靜%吳攀%韓誌偉%張翅鵬%劉宏
손정%오반%한지위%장시붕%류굉
酸性矿山排水%表层岩溶水%水质%高砷煤矿%交乐
痠性礦山排水%錶層巖溶水%水質%高砷煤礦%交樂
산성광산배수%표층암용수%수질%고신매광%교악
acid mine drainage (AMD)%epikarst water%water quality%high As coal mine%Jiaole
矿业开发过程对水环境的影响是严重的,而表层岩溶水是喀斯特地区居民的主要水源之一,具有典型的脆弱性. 因此,研究酸性矿山水对岩溶水质的影响尤为重要. 以兴仁县交乐高砷煤矿区为例,从水化学角度研究高砷煤矿废水对矿区周边表层岩溶水水质的影响. 结果表明:酸性矿山排水中ρ(SO_4~(2-))和溶解态金属中ρ(Cd),ρ(Cu),ρ(Zn),ρ(Mn)和ρ(Fe)高,pH低;矿山废水主要影响下游溪流地表水及其流经的岩溶管道水体的水质,对当地居民的正常使用影响较大;pH沿溪流方向逐渐升高,而水体中主要离子浓度呈不同程度的降低趋势;与酸性矿山排水没有水力联系的周边支流及泉点目前尚未受到影响.
礦業開髮過程對水環境的影響是嚴重的,而錶層巖溶水是喀斯特地區居民的主要水源之一,具有典型的脆弱性. 因此,研究痠性礦山水對巖溶水質的影響尤為重要. 以興仁縣交樂高砷煤礦區為例,從水化學角度研究高砷煤礦廢水對礦區週邊錶層巖溶水水質的影響. 結果錶明:痠性礦山排水中ρ(SO_4~(2-))和溶解態金屬中ρ(Cd),ρ(Cu),ρ(Zn),ρ(Mn)和ρ(Fe)高,pH低;礦山廢水主要影響下遊溪流地錶水及其流經的巖溶管道水體的水質,對噹地居民的正常使用影響較大;pH沿溪流方嚮逐漸升高,而水體中主要離子濃度呈不同程度的降低趨勢;與痠性礦山排水沒有水力聯繫的週邊支流及泉點目前尚未受到影響.
광업개발과정대수배경적영향시엄중적,이표층암용수시객사특지구거민적주요수원지일,구유전형적취약성. 인차,연구산성광산수대암용수질적영향우위중요. 이흥인현교악고신매광구위례,종수화학각도연구고신매광폐수대광구주변표층암용수수질적영향. 결과표명:산성광산배수중ρ(SO_4~(2-))화용해태금속중ρ(Cd),ρ(Cu),ρ(Zn),ρ(Mn)화ρ(Fe)고,pH저;광산폐수주요영향하유계류지표수급기류경적암용관도수체적수질,대당지거민적정상사용영향교대;pH연계류방향축점승고,이수체중주요리자농도정불동정도적강저추세;여산성광산배수몰유수력련계적주변지류급천점목전상미수도영향.
Water environment is affected seriously by mining activities. Epikarst water, one of the important water resources in the karst areas, is typically sensitive. Therefore, it is very important to study the influence of acid mine drainage (AMD) on quality of epikarst water. A high Arsenic coal mining area in Jiaole, Xingren County, was chosen to primarily study the effects of wastewater from a high As coal mine on quality of epikarst water nearby the coal mining area from the viewpoint of hydrochemistry. It was found that the AMD is characterized by low pH with high contents of SO_4~(2-) and dissolved metals (Cd, Cu, Zn, Mn, Fe). It affects the quality of the surface water in the downriver rivulet and pipeline water in rock passing by, and has a great impact on the life of the local residents. As the water flows down through the study area, its pH increases asymptotically and the concentrations of main ions decrease to different degrees. However, the changes of water chemistries have not been found in the surrounding tributaries and springs, which have no link to the AMD.
