The indophenol blue method for the determination of dissolved ammonia has been reassessed in several analytical respects including pH control, reaction kinetics, choice of reagents and reagent stability. It was found that an optimal reaction rate (t99%<3 min at room temperature) can be achieved using phenol as the coupling agent, hypochlorite as the oxidant and manganese (II) as the catalyst. The key conditions are that the formation of the intermediate product-chloramine needs to form at pH 7-8, which further reacts with phenol at pH 8-8.5 and the final formation of the indophenol blue should be carried out at pH 10.5. The reagent blank of the proposed method is more stable than that of using dichloroisocyanurate and nitroprusside reagents. Even though the final molar extinction coefficient (640nm=4500 M-1cm-1) may be comparatively lower than that of traditional protocols, the present method takes advantages of being much faster, more consistent and all reagents can be stable for several months. The detection limit using a stop-flow automated device was 0.5 uM using 1 cm cell measured at 640 nm, and the precision was about 1% at 10 uM level with a linear range of up to 100 uM. The analysis throughput was 15 samples per hour. The method is suitable for the examination of high-ammonia-containing urban sewage, industrial and agricultural outflows as well as rain water and aquaculture pond water.