中国煤炭地质
中國煤炭地質
중국매탄지질
COAL GEOLOGY OF CHINA
2014年
5期
63-67
,共5页
丁同福%程志忠%肖柏青%吴海泽
丁同福%程誌忠%肖柏青%吳海澤
정동복%정지충%초백청%오해택
水上钻探%钻井液%污染%试验%数值模拟
水上鑽探%鑽井液%汙染%試驗%數值模擬
수상찬탐%찬정액%오염%시험%수치모의
drilling upon water surface%drilling fluid%pollution%test%numerical simulation
为了研究浅水湖泊水上煤田钻探工程中可能发生的钻井液泄漏对水体的污染情况,以淮南顾北矿港河水上勘探为例,实测分析了不同浓度钻井液对污染指标和鲫鱼存活的影响,其中污染指标包括pH值、悬浮物、CODcr、总Cr和Cd。采用保守物质的对流扩散方程,对钻井液输移扩散进行了数值模拟。研究发现,当钻井液浓度小于1000mg/L时,所测试的污染指标基本上能够达到二级排放标准;当钻井液浓度达到5000mg/L时,鲫鱼死亡率约为原水中养殖的正常死亡率的2倍;钻井液在扩散初期其浓度迅速减少,且水流整体流速越大,则钻井液扩散越快,在扩散后期钻井液会形成高浓度聚集区,钻井液浓度的衰减变慢。
為瞭研究淺水湖泊水上煤田鑽探工程中可能髮生的鑽井液洩漏對水體的汙染情況,以淮南顧北礦港河水上勘探為例,實測分析瞭不同濃度鑽井液對汙染指標和鯽魚存活的影響,其中汙染指標包括pH值、懸浮物、CODcr、總Cr和Cd。採用保守物質的對流擴散方程,對鑽井液輸移擴散進行瞭數值模擬。研究髮現,噹鑽井液濃度小于1000mg/L時,所測試的汙染指標基本上能夠達到二級排放標準;噹鑽井液濃度達到5000mg/L時,鯽魚死亡率約為原水中養殖的正常死亡率的2倍;鑽井液在擴散初期其濃度迅速減少,且水流整體流速越大,則鑽井液擴散越快,在擴散後期鑽井液會形成高濃度聚集區,鑽井液濃度的衰減變慢。
위료연구천수호박수상매전찬탐공정중가능발생적찬정액설루대수체적오염정황,이회남고북광항하수상감탐위례,실측분석료불동농도찬정액대오염지표화즉어존활적영향,기중오염지표포괄pH치、현부물、CODcr、총Cr화Cd。채용보수물질적대류확산방정,대찬정액수이확산진행료수치모의。연구발현,당찬정액농도소우1000mg/L시,소측시적오염지표기본상능구체도이급배방표준;당찬정액농도체도5000mg/L시,즉어사망솔약위원수중양식적정상사망솔적2배;찬정액재확산초기기농도신속감소,차수류정체류속월대,칙찬정액확산월쾌,재확산후기찬정액회형성고농도취집구,찬정액농도적쇠감변만。
In order to study possible drilling fluid leakage pollution to water body during the coal drilling upon shallow lake surface, tak-ing the Huainan Gubei coalmine exploration on water surface as an example, measured and analyzed different concentration drilling flu-ids impact on contamination indexes including pH value, suspended matter, CODcr, total Cr and Cd, as well as carp survival rates. Us-ing conservative matter convective-diffusion equation carried out numerical simulation of drilling fluid transport and diffusion. The study has shown that when drilling fluid concentration less than 1000mg/L, tested contamination indices basically can reach effluent standard category II;when the concentration up to 5000mg/L, carp mortality can be twice the carp living in original water. During ini-tial diffusion stage, drilling fluid concentration decreasing quickly, the large the overall water velocity, the quick the drilling fluid diffu-sion, during the later stage, will form high concentration gathering area of drilling fluid, drilling fluid concentration attenuation slowing down.
