The Simultaneous partial nitrification, anaerobic ammonium oxidation (Anammox) and denitrification (SNAD) process is an innovative biotechnology for the replacement of the traditional nitrification followed by denitrification. The advantage of the SNAD process include less than 60% of operation cost from aeration over the traditional nitrification followed by denitrification, because only half of ammonium stream is required to converting intonitrite and consequently couples the other half of ammonium stream to nitrogen gas. Moreover, the other merit of the SNAD process could remove organic matter by denitrification in the same reactor, which is not able to accomplish by the other autotrophic denitrification processes. The SNAD process was successfully operated in a continuous stirred tank reactor (CSTR) landfill-leachate treatment plant and in a lab-scale sequence batch reactor (SBR). To reveal the SNAD microbial community in the landfill-leachate treatment plant, the 16S rRNA of the sludge from it was analyzed by the molecular tools, which are DNA extraction and Polymerase Chain Reaction (PCR). The result of the 16S rRNA analysis identified that Anammox bacteria were dominant in the SNAD process. On the other hand, we confirm that the Anammox activity contribute most of nitrogen removal by a nitrogen mass balance approach . The result from it indicated the total nitrogen (TN) removal from the combined partial nitrification and Anammox route accounted for 75.5%, while the heterotrophic denitrification contributed to TN removal of 7.7% and COD removal of 23.2%. For the lab-scale study, the lab-scale SBR SNAD process was initially inoculated the biomass from the full-scale landfill-leachate treatment plant. After adaptation of the biomass, four stages (I to IV) with varying nitrogen loading rate (NLR)was examined for the process performance. The increase of the NLR reduced the ammonium removal proportionately. The nitrite concentration was close to zero and the nitrate concentration was less than 36 mg/L in all the stages during the operation period. The total nitrogen removal in the SBR resulted mainly from partial nitrification and Anammox (69-88%) that was evaluated by a stoichiometric model. Overall, the SNAD process offers validated performance on simultaneous nitrogen and chemical oxygen demand (COD) removal economic-friendly.