The solubilizations of dense nonaqueous phase liquids trichloroethylene (TCE), carbon tetrachloride (CCl4), 1,2-dichloroethane (DCE) and tetrachloroethene (PCE) in microemulsions containing mixed surfactants 1- dodecyl-3-methylimidazolium bromide (C12mimBr) and sodium lauryl sulfate (SLS), were studied by application of the ε-β fishlike phase diagram approach. It was found that the three-phase microemulsions would form at two XC12mimBr ranges of 0.0–0.1 and 0.8–1.0. Compared to the microemulsions containing single surfactant C12mimBr or SLS, the mixed C12mimBr-SLS microemulsions have lower solubility of the alcohol (εB) and lower mass fraction of the alcohol in the interfacial layer (AS), but higher solubilization parameter (SP*) values.The order of magnitude for the solubilization ability of the chlorohydrocarbons in the C12mimBr-SLS mixed (XC12mimBr= 0.8) microemulsion systems is: TCE > CCl4> PCE > DCE. This is consistent with the results of the literature.As the mass fraction values of oil in oil-water mixture (α) increase, εB and AS decrease, while SP* increases. The effects of both NaCl contents (w) and temperatures (T) on the physicochemical parameters of the microemulsions were also investigated. As the NaCl contents and the temperatures increase, the solubilization ability of the microemulsions increases.