Convert acre-foot/hour [ac*ft/h] to hundred-cubic foot/day Online | Free flow Converter

Hour [ac·ft/h]

Acre-foot per hour [ac·ft/h] is a unit of volumetric flow rate commonly used in hydrology, irrigation, and water resource engineering. One acre-foot represents the volume of water needed to cover one acre of land to a depth of one foot, approximately 1,233 cubic meters or 325,851 gallons. When expressed per hour, ac·ft/h measures the water volume delivered, consumed, or flowing through a system within a single hour. This unit is particularly useful for managing high-capacity water distribution systems, including canals, reservoirs, and municipal or industrial supply networks, where monitoring short-term flow is essential. For example, a hydroelectric dam releasing 10 ac·ft/h discharges enough water to cover ten acres to a depth of one foot every hour, assisting operators in controlling water levels and power generation. It is also applied in flood control, irrigation scheduling, and industrial water use where precise flow rates are critical. Compared to ac·ft/d or ac·ft/y, acre-foot per hour provides finer temporal resolution, allowing for rapid adjustments and better system management. Using ac·ft/h enables engineers and water managers to monitor, regulate, and optimize water flow, ensuring efficiency, safety, and sustainability in diverse water resource applications.

Hundred-Cubic Foot/Day [hcf/d]

Hundred-cubic foot per day [hcf/d] is a unit of volumetric flow rate commonly used in water utility management, municipal water supply, and industrial applications. One hundred cubic feet (hcf) equals 100 cubic feet of water, which is approximately 2,832 liters or 748 gallons. When expressed per day, hcf/d measures the volume of water delivered, consumed, or transported over a 24-hour period. This unit is widely used by water utilities to bill customers, monitor consumption, and plan water distribution effectively. For example, a household consuming 5 hcf/d uses 500 cubic feet of water in one day, which helps utilities estimate supply needs and manage infrastructure. It is also applied in industrial and commercial water management to track usage, optimize processes, and ensure sustainability. Compared to smaller units like cubic meters per day, hcf/d provides a practical scale for medium- to large-volume water systems, making it convenient for reporting and operational planning. Using hundred-cubic foot per day enables engineers, utility managers, and policymakers to monitor, manage, and optimize water resources, ensuring efficient distribution, cost-effective operations, and reliable supply in municipal and industrial contexts.