Tetramethyl ammonium hydroxide (TMAH) is a strong base and toxic substance primarily used as photoresist developer in electronic industry. In domestic wastewater treatment, TMAH can only be removed minimal amount by conventional biological treatments. In addition, the ammonium released from THMA after biodegradation will increase the ammonia concentration substantially. Therefore, additional nitrification process is required for biological treatment of TMAH wastewater. Carbon dioxide is the main source of inorganic carbon for nitrification. Alkaline solution such as NaOH and TMAH can absorb carbon dioxide and increase the inorganic carbon concentration. These solutions can be used as carbon source stock solution to enhance nitrification process. In this study, the active sludge for nitrification and TMAH degradation was enriched by batch culture and followed by immobilized microorganism in polyvinyl alcohol (PVA). PVA entrapment not only can keep high concentration of biomass but also reduce the amount of the sludge production. Besides, the specific density was slightly higher than water so it was easy to settle out of the water. The sludge was centrifuged and entrapped with 10% (w/v).The reaction was processed at 12 h hydraulic retention time and the reactor was 1 L. In these conditions, the loading rate of nitrification was 0.47 - 0.53 Kg-N/m3/day and the loading rate of TMAH was 1.3 - 1.5 Kg-TMAH/m3/day. In conclusion, the treatment process by PVA-entrapped nitrifying organisms has good removal efficiency. Also, PVA-entrapment provided a better condition for both autotrophic nitrifying bacteria and heterotrophic TMAH degrading bacteria to co-exist simultaneously. Besides TMAH, other alkaline wastewater can use similar process to neutralize wastewater by carbon dioxide and to enhance nitrification process in wastewater treatment.