In recent years, people demands the use of space needs and beautifying the landscape of cities. The underground tunnel development and engineering design get much attention. We don’t have enough engineering experiences of building large underground tunnel in Taiwan and lack for related literarures of a large underground tunnel. Therefore , this research proceeds in a large circular tunnel model, in which air is cooled by indirect water cooling system. Using two linear heat sources in the tunnel is simulated by electric heaters. In order to investigate the related heat transfer issues. The manipulated variables of this research are the positions of two heat sources( 30°, 60°, 90°, and 120°), the powers of heat source ( 2600W , 1920W , and 1300W ) , the flow rates of cooling water (4LPM , 8 LPM , and 12LPM) , the number of cooling-water pipes( single , double , multi-pipe ) , and cooling-water pipes with five positions. Air temperatures , temperatures of axial direction and cooling-water pipes in the tunnel are obtained with thermocouples, then useing them to plot the temperature distribution of cross section in tunnel. The research shows that if the position of the lower heaters , the absorption of heat transfer rate and the cooling rate will be better in single pipe. The disadvantage is that the overall temperature of the tunnel will become high. If the location of pipes are closer to the heaters , The high temperatures at the top of heaters significantly affected by inhibition. When increasing the flow rate of the pipe , the heat transfer rate will increase , but it’s not proportional to increase. When the positions of the two heat sources( 30°, 90°, and 120° ) , the D pipe is optimun cooling rate in single pipe. But the optimum cooling rate of heat sources in 60° is the C pipe. In the experiment of changing the number of cooling pipes with fixed flow rate, the distributed installation of pipes is better then the concentrated installation of pipes. Installing multi-pipe is useful for cooling the temperatures of cross section and the temperatures of axial direction. In the experiment of changing the positions of heaters , moving from the bottom to top with the heaters , the area of lower temperatures becomes larger. When the power of the heater is decreased , the temperatures of cross section will be lower. The optimum layout of indirect water cooling system is using multi-pipe and the electric heaters placement in the top of the tunnel is optimum.