Particularly for accurate and dynamic applications, this tool allows engineers, technicians, and system designers to operate across metric and imperial units in fluid flow measurement by converting Cubic Inches per Second (in³/s) to Liters per Second (L/s).
Definition: Cubic Inches per Second (in³/s)
An imperial unit of volumetric flow rate, Cubic Inches per Second (in\u00b3/s) represents how many cubic inches of fluid flow every second. Particularly in the United States, it is frequently employed in mechanical and hydraulic systems.
Key Applications of Cubic Inches per Second (in³/s):
- Specifications for hydraulic pump flow rates.
- In car uses, engine displacement and fuel flow.
- Measurement in small-scale industrial process systems.
- Testing of prototypes and lab-scale flow devices
Definition: Liters per Second (L/s)
A metric tool called liters per second (L/s) measures fluid flow in terms of liters moved per second. It is often used in municipal, engineering, and scientific systems for exact and high-flow computations.
Key Applications of Liters per Second (L/s):
- Systems of distribution and water delivery.
- Rates of hydrant flow and firefighting tools.
- Analysis of HVAC system flow.
- Liquid transfer at high speed in process engineering.
Formula for in³/s to L/s Conversion
Use the formula to change Cubic Inches per Second (in\u00b3/s) to Liters per Second (L/s):
Flow (L/s) = Flow (in³/s) × 0.0163871
Explanation: One cubic inch is approximately equal to 0.0163871 liters.
Example Calculation
If your system outputs 100 in³/s, convert it to L/s:
100 × 0.0163871 = 1.63871 L/s
So, a flow of 100 Cubic Inches per Second is equivalent to 1.63871 Liters per Second.
Quick Reference Conversion Table
| Cubic Inches per Second (in³/s) | Liters per Second (L/s) |
| 1 in³/s | 0.0163871 L/s |
| 10 in³/s | 0.163871 L/s |
| 50 in³/s | 0.819355 L/s |
| 100 in³/s | 1.63871 L/s |
| 250 in³/s | 4.096775 L/s |
| 500 in³/s | 8.19355 L/s |
| 1,000 in³/s | 16.3871 L/s |
Uses of in³/s to L/s Conversion
- Match imperial hydraulic system data to metric-based instruments.
- Allow consistency in engineering and design teams spread throughout several nations.
- Guarantee consistent unit measurement and specification.
- Increase system validation and international documentation clarity.
- Assist performance testing and fluid mechanics computations.
For system designers and fluid engineers who must convert imperial volumetric flow into metric terms for worldwide compatibility and accuracy, this conversion tool is useful.
Here you can refer more 200+Online Instrumentation Calculators
 to Liters per Second (L/s) quickly and accurately with this flow unit converter. Ideal for hydraulic, automotive, and process engineering applications.){kind=link}