Modeling of Methane Migration in Shallow Aquifers from Shale Gas Well Drilling
详细信息 查看全文
- 作者:by Liwei Zhang and Daniel J. Soeder
- 刊名:Ground Water
- 出版年:2016
- 出版时间:May/June 2016
- 年:2016
- 卷:54
- 期:3
- 页码:345-353
- 全文大小:1293K
- ISSN:1745-6584
文摘
The vertical portion of a shale gas well, known as the “tophole” is often drilled using an air-hammer bit that may introduce pressures as high as 2400 kPa (350 psi) into groundwater while penetrating shallow aquifers. A 3-D TOUGH2 model was used to simulate the flow of groundwater under the high hydraulic heads that may be imposed by such trapped compressed air, based on an observed case in West Virginia (USA) in 2012. The model realizations show that high-pressure air trapped in aquifers may cause groundwater to surge away from the drill site at observable velocities. If dissolved methane is present within the aquifer, the methane can be entrained and transported to a maximum distance of 10.6 m per day. Results from this study suggest that one cause of the reported increase in methane concentrations in groundwater near shale gas production wells may be the transport of pre-existing methane via groundwater surges induced by air drilling, not necessarily direct natural gas leakage from the unconventional gas reservoir. The primary transport mechanisms are advective transport of dissolved methane with water flow, and diffusive transport of dissolved methane.