Department of Civil and Environmental Engineering, Colorado State University, Fort Collins, CO 80523-1320, USA.
Ground Water. 2012 Nov-Dec;50(6):840-50. doi: 10.1111/j.1745-6584.2012.00931.x. Epub 2012 Apr 10.
The stability of subsurface Light Nonaqueous Phase Liquids (LNAPLs) is a key factor driving expectations for remedial measures at LNAPL sites. The conventional approach to resolving LNAPL stability has been to apply Darcy's Equation. This paper explores an alternative approach wherein single-well tracer dilution tests with intermittent mixing are used to resolve LNAPL stability. As a first step, an implicit solution for single-well intermittent mixing tracer dilution tests is derived. This includes key assumptions and limits on the allowable time between intermittent mixing events. Second, single-well tracer dilution tests with intermittent mixing are conducted under conditions of known LNAPL flux. This includes a laboratory sand tank study and two field tests at active LNAPL recovery wells. Results from the sand tank studies indicate that LNAPL fluxes in wells can be transformed into formation fluxes using corrections for (1) LNAPL thicknesses in the well and formation and (2) convergence of flow to the well. Using the apparent convergence factor from the sand tank experiment, the average error between the known and measured LNAPL fluxes is 4%. Results from the field studies show nearly identical known and measured LNAPL fluxes at one well. At the second well the measured fluxes appear to exceed the known value by a factor of two. Agreement between the known and measured LNAPL fluxes, within a factor of two, indicates that single-well tracer dilution tests with intermittent mixing can be a viable means of resolving LNAPL stability.
地下非水相液体 (LNAPL) 的稳定性是驱动 LNAPL 场地补救措施预期的关键因素。解决 LNAPL 稳定性的传统方法是应用达西方程。本文探讨了一种替代方法,即使用间歇混合的单井示踪剂稀释测试来解决 LNAPL 稳定性问题。作为第一步,推导了单井间歇混合示踪剂稀释测试的隐式解。这包括对间歇混合事件之间允许时间的关键假设和限制。其次,在已知 LNAPL 通量的条件下进行了间歇混合的单井示踪剂稀释测试。这包括实验室砂箱研究和两个活跃 LNAPL 回收井的现场测试。砂箱研究的结果表明,可以使用(1)井中和地层中的 LNAPL 厚度以及(2)流向井的收敛的校正来将井中的 LNAPL 通量转换为地层通量。使用砂箱实验的明显收敛因子,已知和测量的 LNAPL 通量之间的平均误差为 4%。现场研究的结果表明,在一个井中,已知和测量的 LNAPL 通量几乎相同。在第二个井中,测量的通量似乎比已知值高出两倍。在两倍以内,已知和测量的 LNAPL 通量之间的一致性表明,间歇混合的单井示踪剂稀释测试可以是解决 LNAPL 稳定性的可行方法。
