With projections from the National Institute of Meteorological Sciences indicating an increase in warm days and a decrease in cold days, the potential impact of the reverse stack effect during summer is gaining attention. This study investigates the effects of vertical shaft zoning in high-rise buildings on entrance pressure differentials and cooling loads during summer conditions. Simulations were conducted for three major vertical shafts in a case-study building under three different zoning configurations, evaluated under both winter (-11.3°C) and summer (40°C) scenarios. Using CONWAMW, airflow and pressure differentials at shaft entrances were analyzed, and HVAC loads were calculated via Revit. Results indicate that shaft zoning effectively reduces airflow and mitigates cooling loads not only during winter stack effects but also under reverse stack effect conditions in summer.