Microalgae can be produced to develop different products in various sectors of the industry. Microalgae can be unicellular or multicellular, and they can be photosynthetic, chemosynthetic, or heterotrophic. The biomass of microalgae can be manipulated by altering the amounts of carbon, nitrogen, phosphorus, calcium, magnesium, and trace elements in the medium in which they are cultivated. In this study, the growth of Scenedesmus sp. microalgae in TAP medium and synthetic wastewater, and the changes in optical density, biomass, carbohydrate content, carbohydrate percentage, and biobutanol amount due to different urea concentrations and light intensities were examined. It was observed that these values changed with urea concentrations of 20-100 mg/L and light intensities of 20-100 μmol/m-2s-1. According to the results, the highest biomass amount was found to be 0.85 g/L at an 80 mg/L urea concentration and 80 μmol/m-2s-1 light intensity. The lowest biomass amount was found to be 0.49 g/L with a light intensity of 20 μmol/m-2s-1 and a urea concentration of 20 mg/L with a biomass of 0.54 g/L. The highest carbohydrate amount was found to be 0.24 g/L in an environment with 80 mg/L urea concentration and 80 μmol/m-2s-1 light intensity. In the environment with these variables, the carbohydrate percentage was found to be 30% at a urea concentration of 60 mg/L. In an environment with a urea concentration of 80 mg/L and a light intensity of 80 μmol/m-2s-1, 0.04 g/L of biobutanol was produced from the microalgae. In conclusion, by altering the urea and light intensity in the microalgae produced from wastewater, the production of biobutanol can be increased.