Convert liter/day [L/d] to cubic centimeter/second Online | Free flow Converter

Day [L/d]

Liter per day (L/d) is a unit of volumetric flow rate that measures the amount of liquid passing through a system over a 24-hour period. One liter equals 1,000 cubic centimeters, so L/d quantifies how many liters of fluid flow or are consumed each day. This unit is widely used in water supply, wastewater management, agriculture, and medical applications to track daily fluid usage or delivery. For example, municipal water authorities often express household or industrial water consumption in L/d to plan supply, treatment, and storage efficiently. In agriculture, irrigation systems are designed based on the daily water requirements of crops, often calculated in liters per day. In healthcare, fluid intake or output for patients, such as intravenous fluids, is also monitored in L/d to ensure proper hydration and medical treatment. Compared to L/h, this unit provides a long-term perspective, suitable for planning and monitoring fluid systems over a full day. Using liters per day allows engineers, planners, and healthcare professionals to manage, optimize, and conserve fluid resources effectively, ensuring sustainability, efficiency, and reliability in both residential, agricultural, and industrial contexts.

Centimeter/Second [cm³/s]

Cubic centimeter per second (cm³/s) is a unit of volumetric flow rate that measures the volume of a fluid—liquid or gas—passing through a system every second. One cubic centimeter represents a cube with sides of one centimeter, so cm³/s indicates how many such tiny volumes flow each second. This unit is widely used in laboratory experiments, microfluidics, medical devices, and precision engineering where rapid yet small-scale fluid flows need to be monitored and controlled. For example, in medical applications, devices such as infusion pumps or respiratory equipment often rely on cm³/s measurements to ensure exact fluid or gas delivery. In microfluidics and chemical laboratories, reagents or solvents are dispensed at rates specified in cm³/s to maintain reaction accuracy and consistency. Compared to cm³/min, this unit allows for finer temporal resolution, enabling real-time monitoring and precise adjustment of flow rates. Using cubic centimeters per second, scientists, engineers, and technicians can track, regulate, and optimize fluid movement with high accuracy, ensuring efficiency, safety, and reliable performance in both experimental and industrial applications where even small variations in flow can significantly affect outcomes.