Convert acre-foot/day [ac*ft/d] to cubic meter/hour [m^3/h] Online | Free flow Converter

Day [ac·ft/d]

Acre-foot per day [ac·ft/d] is a unit of volumetric flow rate used in hydrology, irrigation, and water resource management. One acre-foot represents the volume of water required to cover one acre of land to a depth of one foot, approximately 1,233 cubic meters or 325,851 gallons. When expressed per day, ac·ft/d measures the amount of water delivered, consumed, or flowing through a system in a single 24-hour period. This unit is particularly useful for managing large-scale water distribution systems, such as reservoirs, canals, and municipal water supply networks, allowing engineers to monitor daily water availability and usage. For example, an irrigation canal delivering 50 ac·ft/d provides enough water to cover 50 acres to a depth of one foot in a day, helping farmers plan crop irrigation schedules. It is also used in environmental monitoring, flood management, and industrial water usage planning. Compared to ac·ft/y, acre-foot per day provides short-term resolution, enabling timely operational decisions and adjustments. Using ac·ft/d allows hydrologists, engineers, and water managers to track, regulate, and optimize water flow, ensuring efficient, sustainable, and reliable use of water resources for agriculture, municipal supply, and industry.

Cubic Meter/Hour [m³/h]

Cubic meter per hour (m³/h) is a unit of volumetric flow rate used to measure the volume of a fluid—liquid or gas—passing through a system over one hour. One cubic meter represents a cube with sides of one meter, so m³/h indicates how many such cubic meters flow per hour. This unit is widely used in industrial processes, water supply systems, HVAC applications, and chemical engineering to monitor and control fluid movement. For example, in water treatment plants, pumps and pipelines are often rated in m³/h to ensure the correct volume of water is delivered or treated each hour. In industrial manufacturing, m³/h helps regulate the flow of liquids or gases in processes such as cooling, chemical mixing, or fuel supply. Compared to m³/s, this unit is more suitable for operations where flow is measured on an hourly basis, providing a practical perspective on medium-term fluid transport. Using cubic meters per hour allows engineers and operators to design efficient systems, prevent overloading, and optimize resource use, ensuring smooth operation and accurate monitoring of fluid-based systems across residential, commercial, and industrial sectors.