The main objectives of this study were to evaluate the conditions of best temperature and light intensity of greenhouse/structure growing Phalaenopsis by the measurement of daily carbon balance with CO^2 flux using eddy covariance technique for the purpose of improving orchid management in greenhouse cultivation. The results indicated that the maximum carbon balance can be reached at the day/nighttemperature of 25/25℃ on leaf basis, and in range of 24-27℃ on the base of greenhouse as a whole. The correlation coefficient between daily mean temperature and carbon balance was 0.65, calculated by annual eddy flux data. The relationship between night temperature and CO (subscript 2) fixation was stronger than day temperature and respiration. The light and dark reactions of carbon fixation for crassulacean acid metabolism (CAM) plant were separated. The suitable light intensity range for Phalaenopsis leaves was 300-500 μmol m(superscript -2) s(superscript -1) from the measurements of daily carbon balance and fluorescence parameters. In addition, higher daily carbon balance occurred in 1 day/night cycle per day (148.3 μmol CO(subscript 2) m(superscript -2) day(superscript -1)) compared with 2 cycles (127.1 μmol CO^2 m(superscript -2) day(superscript -1)) and 3 cycles (92.4 μmol CO^2) m(superscript -2) day(superscript -1)). Latent heat was not significantly correlated with temperature and light intensity because the pad-fan interfere the vaporing of water in greenhouse.