Convert pound/hour (Gasoline at 15.5%b0C) to cubic meter/second [m^3/s] Online | Free flow Converter

Pound/Hour (Gasoline at 15.5°C) [lb/h]

Pound per hour [lb/h] is a unit of mass flow rate that measures the mass of a substance passing through a system every hour. When specified for gasoline at 15.5°C (approximately 60°F), it reflects the density of gasoline under standard conditions, approximately 6.073 lb/gal (0.725 g/cm³). Expressed in lb/h, this unit is commonly used in fuel consumption analysis, industrial fuel handling, and energy management where longer-term monitoring of fuel usage is required. For example, a generator consuming 7,200 lb/h of gasoline can be evaluated for operational efficiency, fuel costs, and maintenance scheduling. In pipelines, storage tanks, or fueling stations, lb/h allows operators to track fuel flow over extended periods, ensuring inventory control, safety, and consistent supply. Compared to lb/s or lb/min, pound per hour provides a macro-level perspective, ideal for planning, reporting, and performance assessment. Using lb/h for gasoline at 15.5°C enables engineers, operators, and energy managers to monitor, regulate, and optimize fuel mass flow, ensuring efficient fuel use, operational reliability, and safety in industrial, automotive, and energy applications where consistent fuel delivery and consumption data are essential.

Cubic Meter/Second [m³/s]

Cubic meter per second (m³/s) is a standard unit of volumetric flow rate, representing the volume of a fluid—liquid or gas—that passes through a given cross-sectional area per second. One cubic meter corresponds to a cube with sides of one meter in length, so when measured per second, it quantifies how many such cubic meters move through a system every second. This unit is widely used in hydrology, fluid mechanics, and engineering, including applications such as river flow measurement, pipeline transport, and ventilation systems. In hydrology, for example, the flow of a river or stream is often expressed in m³/s to understand water availability, flood potential, or for designing dams and irrigation systems. In industrial settings, it helps engineers design pumps, fans, and piping systems to ensure efficient transport of fluids. Because it measures volumetric flow, it can be converted into mass flow rate if the fluid’s density is known, enabling calculations related to energy transfer, heating, or cooling. The cubic meter per second is a crucial unit for planning, monitoring, and managing fluid systems, ensuring safety, efficiency, and sustainability in both natural and engineered environments.