Convert acre-foot/year [ac*ft/y] to cubic centimeter/minute Online | Free flow Converter

t/Year [ac·ft/y]

Acre-foot per year [ac·ft/y] is a unit of volumetric flow rate commonly used in hydrology, water resource management, and irrigation planning. One acre-foot represents the volume of water required to cover one acre of land to a depth of one foot, which is approximately 1,233 cubic meters or 325,851 gallons. When expressed per year, ac·ft/y quantifies the total water volume delivered, used, or available over a 12-month period. This unit is particularly useful for managing large-scale water supplies, such as reservoirs, rivers, or agricultural irrigation systems, providing a standardized measure to estimate annual water availability and consumption. For example, an irrigation system supplying 500 ac·ft/y delivers enough water to cover 500 acres to a depth of one foot over a year. It is also used to plan municipal water supply, allocate water rights, and forecast long-term resource needs. Compared to daily or monthly flow units, acre-foot per year gives a macro-level perspective, suitable for long-term planning, resource management, and sustainability assessments. Using ac·ft/y enables engineers, hydrologists, and policymakers to monitor, manage, and optimize water resources, ensuring efficient allocation and conservation for agricultural, municipal, and industrial use.

Centimeter/Minute [cm³/min]

Cubic centimeter per minute (cm³/min) is a unit of volumetric flow rate that measures the volume of a fluid—liquid or gas—passing through a system every minute. One cubic centimeter represents a cube with sides of one centimeter, so cm³/min indicates how many such small volumes flow per sixty seconds. This unit is commonly used in laboratory experiments, medical dosing, chemical processing, and precision engineering where controlled, small-scale fluid flow is essential. For instance, in medical applications, infusion pumps deliver fluids like medication or nutrients at rates often specified in cm³/min to ensure accurate administration. In analytical chemistry, laboratory pumps or microfluidic devices utilize cm³/min measurements to regulate reagents and solvents with precision, ensuring consistent reactions. Compared to cm³/h, this unit provides higher temporal resolution, allowing better control and monitoring of moderate flow rates over shorter intervals. Using cubic centimeters per minute enables engineers, scientists, and technicians to accurately track, regulate, and optimize fluid flow, maintaining safety, efficiency, and reliability in applications where even minor deviations in volume or timing can significantly affect results.