One of the ways sustainable water management, reuse of waste water, the waste water treatment is necessary to ensure public health. Today, because of the high cost of conventional treatment methods, biological methods such as artificial wetlands to reduce emissions of such waste, has increased dramatically. Artificial wetlands based on the current regime to three artificial lagoons surface, subsurface horizontal and vertical subsurface divided. In this study, wetland landscape submarine was used in addition to the waste water treatment, wastewater treatment and water with this mix of several types of treated wastewater for use in power plants and green spaces have been proposed. So that the well water, distilled water, using treated wastewater plant litter, untreated wastewater and treated wastewater by using sand filtration is used. To repeat the experiment, the cells were 3 for selected plant species that the situation was the same in all cells, so testing in a randomized complete block design with three replications. A cell without plant was considered as control. A total of 4 cells were studied over a 6 month period and tested, so that in every month, 9 samples were taken from each cell was tested. Test parameters include pH, EC, TDS, BOD, COD, aluminum, iron, copper, hydrazine, phosphate, sulfate, total hardness, calcium, magnesium and chlorine is. The purpose of this research is to find the best mix for the plant and its green spaces. Determine the best mix, with the advantage of reducing the tested parameters and also analyze the significance of mixing results in 5% of projects were mixed. The results of 21 projects mixing it comes on the best mix of sterile 60%, 30% waste water treatment plant and raw wastewater bed method is 10%. Keywords: wastewater, cunstructed wetlands, mixture, power plant, greenery