Cleanliness in the hospital environment is imperative for patient safety. Optimization of hospital environment cleaning may help decrease the bioburden of various microorganisms, including multidrug-resistant organisms, from surfaces of medical equipments and instruments and consequently reduce the incidence of healthcare-associated infections. An environmental cleaning management team comprising the representatives from the Infection Control Center, Department of General Business, and Department of Nursing conducted evidence-based interventions to assess the cleaning process in our hospital in 2015. Since 2016, adenosine triphosphate (ATP) luminometer has been used for monthly audits to evaluate the environmental cleaning process in general wards and intensive care units (ICUs). Between January 2016 and December 2018, 266 points in ICUs and 216 points in general wards have been checked using ATP luminometer. The passing rate for environmental cleaning, defined as relative light unit (RLU) ＜ 100/cm^2 as assessed with ATP luminometer, improved from 79.7% to 92.5% (p ＜ 0.001) over the study period. The highest failure rate was observed among barcode recorders for medical samples (62.5%), followed by the nursing call system in nursing stations (61.5%), suction flow meters (56.3%), workbench of clinical staff in ICUs (40%), arterial blood gas analyzers (35.7%), bedside monitoring panels (32.5%), ventilators (30.4%), airflow meters (24.4%), and bed rails (17%). According to this study, medical devices with a high cleanliness failure rate after standard cleaning procedures mostly comprised rollers or grooves. With this method, the infection control nurses could provide immediate feedback to the cleaning staff and further improve the mutual cooperation and discussion on the effectiveness of hospital environmental cleaning procedures.