Convert cubic foot/minute [ft^3/min] to milliliter/day [mL/d] Online | Free flow Converter

Cubic Foot/Minute [ft³/min]

Cubic foot per minute [ft³/min] is a unit of volumetric flow rate that measures the volume of fluid or material passing through a system every minute, based on the cubic foot. One cubic foot equals approximately 28.3168 liters. Expressed per minute, ft³/min is widely used in HVAC systems, industrial processes, water distribution, and pneumatic systems where real-time monitoring of moderate to high flow rates is essential. For example, in ventilation systems, an airflow of 500 ft³/min ensures proper circulation and air quality in commercial or industrial buildings. In industrial applications, ft³/min is used to monitor liquid or gas flow through pipelines, ensuring consistent production and process efficiency. It is also applied in water treatment, chemical dosing, and small-scale material handling. Compared to ft³/h, cubic foot per minute provides higher temporal resolution, allowing operators to make immediate adjustments and maintain precise flow control. Using cubic feet per minute enables engineers, technicians, and facility managers to measure, monitor, and optimize volumetric flow, ensuring efficiency, safety, and reliability in industrial, municipal, and building systems.

Milliliter per day (mL/d) is a unit of volumetric flow rate that measures the volume of a liquid passing through a system over a 24-hour period. One milliliter equals one-thousandth of a liter, so mL/d quantifies very small daily fluid volumes, making it ideal for medical, laboratory, and precision dosing applications. In healthcare, mL/d is often used to monitor a patient’s fluid intake or output over a day, ensuring accurate hydration or medication delivery. In laboratory settings, chemical reactions or experiments that require slow, controlled addition of reagents use mL/d to maintain precision and reproducibility. Compared to L/d, this unit provides a much finer scale, suitable for situations where even minor deviations in volume can affect outcomes. It is also used in micro-irrigation systems, specialized industrial processes, and pharmaceutical manufacturing to measure minimal fluid flow accurately. Using milliliters per day allows scientists, engineers, and medical professionals to track, regulate, and optimize very low-volume fluid flows, ensuring consistency, safety, and reliability in sensitive applications where precision is critical.