Many estimators of environment have been proposed and tested to quantify the environmental effect successfully. While those environmental estimators in general work well with spectroscopic redshift (spectral-z hereafter) samples, their applications to photometric redshift (photo-z hereafter) surveys is uncertain. In this work, we study how the 2D projected galaxy environments are affected by photo-z error and how the 2D projected galaxy environments are correlated with 3D real-space environment. We use the Durham mock catalog built on Millennium Simulation to study their correlation. To recover the 3D real-space galaxy environments from 2D projected environments, we construct the Optimized Scheme which can probe the best parameters of measurement to measure the 2D projected environments that yield the best correlation with 3D real-space environments. We also study the correlation between the red fraction and galaxy environment by using the results from optimized schemes. Our results show that the color-density relation can still be revealed in photo-z samples with photo-z error up to 0.06(1+z). We also discuss its application to the Pan-STARRS Medium Deep survey, one of the largest on-going deep imaging surveys.