Along with the urban development and the man-made destruction, global warming and urban heat island have become a growing phenomenon, which increase the time people staying indoors. In subtropical Taiwan, it relies on air conditioner to maintain a comfortable indoor environment; however, it causes significant energy consumption. Therefore how to achieve a comfortable and energy- effective indoor environment becomes an important issue nowadays. In recent years, the vegetated wall is widely used for the interior spaces, such as airports and commercial areas. Many researches already pointed out that vegetation help release human’s pressure, cool down the air temperature, and purify the air…etc. Based on these many benefits, it’s supposed that vegetated wall have great potential to improve the quality of indoor environment and save up more energy. Most of the research done on the theme of vegetated wall shed light on the influence brought to the indoor thermal comfort after the vegetated wall were attached to the exterior surface of a building. Therefore my research will approach from the perspective of the vegetated wall set inside the building, and how it can improve the indoor comfort.The research quantified the indoor thermal effect of the vegetated wall by experiment in two full –scaled laboratories. The experiment was divided into two stages. In the first stage the experiment measured the indoor environment condition of the metal sheet house. In the next stage, the house was added an insulation layer to simulate common residential houses. On the indoor comfort analysis using the adaptive model of ASHRAE and the PMV- PPD model of ISO7730, that dual model analysis of indoor comfort was divided into two stages for better research results. The research simulated the annual long-term vegetated effect on hourly indoor thermal condition by Energyplus.in order to assess the degree of over cool and over heat alleviated by vegetated wall during cold period and hot period. Simulation results using long-term thermal discomfort analysis suggested by ISO 7730 show the difference between thermal discomfort and cold discomfort, and to evaluate the before and the after when the vegetation is added to the metal sheet house. By calculating the frequency and severity of thermal discomfort and cold discomfort, the results can be quantified for assessing the efficiency of the vegetated wall to promote the indoor thermal comfort. Through the experimental results, increasing the indoor plant wall in different seasons has different influences on the indoor environment. During the cold winter, this wall can cause coolness so it does not apply. In the spring period, the vegetated wall could provide a reduction of 1.52 degrees indoor air temperature and 2.6 degrees Mean Radiant Temperature, and purified indoor CO2 concentration for 55.7 PPM. In the summer period with added insulation layer in the indoor space, the vegetated wall could reduce 3.5 degrees indoor air temperature and 3.7 degrees Mean Radiant Temperature, but increase 110.9 PPM the indoor CO2 concentration. As for the indoor thermal comfort analysis, increasing the vegetated wall can improve the indoor comfort. But PMV-PPD model shows that the house with vegetated wall is more discomfort than the house without vegetated wall. This is the main reason the vegetated wall increases humidity. So suggesting vegetated wall which maintain indoor air flow improves the problem of the increase in humidity. In the green cover experiment, the green wall layer rate is 1/2 to achieve the best comfortable indoor environment. The main reason for this is the summer heat can cause the garden soil of the wall's influence on the indoor environment to be greater than the plant itself on the indoor environment. In the air conditioning experiments, the indoor added green wall can effectively reduce power consumption, saving 8.64 KWH per month during the summer season could save 116.9 TWD. In the EnergyPlus simulation on the severity and frequency of discomfort over a long period of time, we can learn that the vegetated wall is suitable for the appropriate type of office space, thus the wall can effectively reduce the severity and frequency of the indoor overheating phenomenon. To conclude the above results, the interior space using the vegetated wall can improve indoor comfort and lower power consumption, under the circumstance of maintaining indoor air flow which helps prevent the increase of humidity indoor.