Litres per second (l/s) to Imperial Gallons per Second (imp-gal/s) conversion

1 l/s = 0.2199692 imp-gal/simp-gal/sl/s
Formula
1 l/s = 0.2199692 imp-gal/s

Understanding Litres per second to Imperial Gallons per Second Conversion

The Litre per second is a metric flow unit typical of pumps, fire hoses and building plumbing systems. The Imperial Gallon per Second measures how many UK imperial gallons (4.54609 L each) flow past a point every second, a large rate seen in heavy industrial pumping. Converting Litres per second to Imperial Gallons per Second lets you express the same flow rate in a different unit system when reading pump curves, spec sheets or utility figures.

Conversion Formula

To convert Litres per second to Imperial Gallons per Second, multiply by the fixed conversion factor:

1 l/s=0.2199692482991 imp-gal/s1\ \text{l/s} = 0.2199692482991\ \text{imp-gal/s}

In other words, multiply the number of Litres per second by 0.21996924829910.2199692482991 to obtain the equivalent value in Imperial Gallons per Second:

Vout=Vin×0.2199692482991V_{\text{out}} = V_{\text{in}} \times 0.2199692482991

Step-by-Step Example

Convert 99 Litres per second to Imperial Gallons per Second.

  1. Write the formula: Vout=Vin×0.2199692482991V_{\text{out}} = V_{\text{in}} \times 0.2199692482991
  2. Substitute the value: Vout=9×0.2199692482991V_{\text{out}} = 9 \times 0.2199692482991
  3. Calculate: 9×0.2199692482991=1.9797232359 \times 0.2199692482991 = 1.979723235

So 9 l/s=1.979723235 imp-gal/s9\ \text{l/s} = 1.979723235\ \text{imp-gal/s}.

How to Convert Litres per second to Imperial Gallons per Second

Converting Litres per second to Imperial Gallons per Second takes a single multiplication once you know the factor; here is the process using 11 l/s11\ \text{l/s} as an example.

  1. Write the conversion factor:

1 l/s=0.2199692482991 imp-gal/s1\ \text{l/s} = 0.2199692482991\ \text{imp-gal/s}

  1. Set up the multiplication with your value:

11 l/s×0.2199692482991 imp-gal/s1 l/s11\ \text{l/s} \times \frac{0.2199692482991\ \text{imp-gal/s}}{1\ \text{l/s}}

  1. Cancel the l/s units so only imp-gal/s remains:

11×0.2199692482991=2.419661731 imp-gal/s11 \times 0.2199692482991 = 2.419661731\ \text{imp-gal/s}

  1. State the result: 11 l/s=2.419661731 imp-gal/s11\ \text{l/s} = 2.419661731\ \text{imp-gal/s}, so 11 Litres per second equals 2.419661731 Imperial Gallons per Second.

Litres per second to Imperial Gallons per Second conversion table

Litres per second (l/s)Imperial Gallons per Second (imp-gal/s)
00
10.2199692
20.4399385
30.6599077
40.879877
51.099846
61.319815
71.539785
81.759754
91.979723
102.199692
153.299539
204.399385
255.499231
306.599077
408.79877
5010.99846
6013.19815
7015.39785
8017.59754
9019.79723
10021.99692
15032.99539
20043.99385
25054.99231
30065.99077
40087.9877
500109.9846
600131.9815
700153.9785
800175.9754
900197.9723
1000219.9692
2000439.9385
3000659.9077
4000879.877
50001099.846
100002199.692
250005499.231
5000010998.46
10000021996.92
25000054992.31
500000109984.6
1000000219969.2

What is Litres per second?

Litres per second (L/s) is a unit used to measure volume flow rate, indicating the volume of liquid or gas that passes through a specific point in one second. It is a common unit in various fields, particularly in engineering, hydrology, and medicine, where measuring fluid flow is crucial.

Understanding Litres per Second

A litre is a metric unit of volume equal to 0.001 cubic meters (m3m^3). Therefore, one litre per second represents 0.001 cubic meters of fluid passing a point every second.

The relationship can be expressed as:

1L/s=0.001m3/s1 \, \text{L/s} = 0.001 \, \text{m}^3\text{/s}

How Litres per Second is Formed

Litres per second is derived by dividing a volume measured in litres by a time measured in seconds:

Volume Flow Rate (L/s)=Volume (L)Time (s)\text{Volume Flow Rate (L/s)} = \frac{\text{Volume (L)}}{\text{Time (s)}}

For example, if 5 litres of water flow from a tap in 1 second, the flow rate is 5 L/s.

Applications and Examples

  • Household Water Usage: A typical shower might use water at a rate of 0.1 to 0.2 L/s.
  • River Discharge: Measuring the flow rate of rivers is crucial for water resource management and flood control. A small stream might have a flow rate of a few L/s, while a large river can have a flow rate of hundreds or thousands of cubic meters per second.
  • Medical Applications: In medical settings, IV drip rates or ventilator flow rates are often measured in millilitres per second (mL/s) or litres per minute (L/min), which can be easily converted to L/s. For example, a ventilator might deliver air at a rate of 1 L/s to a patient.
  • Industrial Processes: Many industrial processes involve controlling the flow of liquids or gases. For example, a chemical plant might use pumps to transfer liquids at a rate of several L/s.
  • Firefighting: Fire hoses deliver water at high flow rates to extinguish fires, often measured in L/s. A typical fire hose might deliver water at a rate of 15-20 L/s.

Relevant Laws and Principles

While there isn't a specific "law" directly named after litres per second, the measurement is heavily tied to principles of fluid dynamics, particularly:

  • Continuity Equation: This equation states that for incompressible fluids, the mass flow rate is constant throughout a pipe or channel. It's mathematically expressed as:

    A1v1=A2v2A_1v_1 = A_2v_2

    Where:

    • AA is the cross-sectional area of the flow.
    • vv is the velocity of the fluid.
  • Bernoulli's Principle: This principle relates the pressure, velocity, and height of a fluid in a flow. It's essential for understanding how flow rate affects pressure in fluid systems.

Interesting Facts

  • Understanding flow rates is essential in designing efficient plumbing systems, irrigation systems, and hydraulic systems.
  • Flow rate measurements are crucial for environmental monitoring, helping to assess water quality and track pollution.
  • The efficient management of water resources depends heavily on accurate measurement and control of flow rates.

For further reading, explore resources from reputable engineering and scientific organizations, such as the American Society of Civil Engineers or the International Association for Hydro-Environment Engineering and Research.

What is the Imperial Gallon per Second?

The Imperial gallon per second (imp-gal/s) is a unit of volumetric flow rate, expressing the volume of liquid passing a point each second measured in Imperial (UK) gallons. It appears in British and Commonwealth engineering contexts such as pump ratings, water supply, and fuel handling.

Definition

One Imperial gallon per second equals one Imperial gallon of volume flowing every second. Since the Imperial gallon is defined as exactly 4.54609 litres, the flow rate converts directly to litres per second:

1 imp-gal/s=4.54609 l/s1\ \text{imp-gal/s} = 4.54609\ \text{l/s}

The Imperial gallon is fixed by definition as 4.54609 L exactly (originally the volume of 10 pounds of water). This makes it noticeably larger than the US liquid gallon of 3.785411784 L, so an Imperial gallon per second delivers about 20% more volume than a US gallon per second.

Origin and History

The Imperial gallon was established by the British Weights and Measures Act of 1824, defined as the volume of ten pounds of distilled water at 62 °F. In 1985 the UK redefined it in metric terms as exactly 4.54609 litres. As a rate unit, gallons per second and the more common gallons per minute grew out of the need to specify pump and pipe throughput during the industrial era.

Law and Notable Facts

The Imperial gallon remains a legally recognised unit in the United Kingdom, though the litre is the primary trading unit under metrication. It is distinct from the US gallon: the Imperial gallon (4.54609 L) is roughly 20% larger than the US liquid gallon (3.785 L), so flow figures quoted in "gallons" must always specify which system. A flow of 1 imp-gal/s corresponds to 60 Imperial gallons per minute or 3,600 per hour.

Real-World Examples and Conversions

  • A flow of 1 imp-gal/s equals 4.54609 L/s, or about 272.77 litres per minute.
  • A typical domestic garden hose delivers well under 1 imp-gal/s; a rate of 1 imp-gal/s (≈16,366 L/h) is closer to a small industrial or firefighting pump.
  • 1 imp-gal/s ≈ 1.20095 US gallons per second, reflecting the larger Imperial gallon.
  • 1 imp-gal/s ≈ 0.00454609 cubic metres per second, useful when comparing against SI pump specifications.

Frequently Asked Questions

What is the formula to convert Litres per second to Imperial Gallons per Second?

Multiply the number of Litres per second by the fixed factor 0.2199692482991. As an equation, Vout=Vin×0.2199692482991V_{\text{out}} = V_{\text{in}} \times 0.2199692482991, because one Litre per second equals 0.2199692482991 Imperial Gallons per Second.

How many Imperial Gallons per Second are in 1 Litre per second?

There are exactly 0.21996924829910.2199692482991 Imperial Gallons per Second in one Litre per second. Going the other way, one Imperial Gallon per Second equals 4.546094.54609 Litres per second.

How do I convert 33 Litres per second to Imperial Gallons per Second?

Multiply the value by the factor: 33×0.2199692482991=7.25898519433 \times 0.2199692482991 = 7.258985194. So 33 Litres per second is 7.258985194 Imperial Gallons per Second.

Where is the Litres per second to Imperial Gallons per Second conversion used?

It comes up whenever a flow rate given in Litres per second has to be matched against equipment or documentation rated in Imperial Gallons per Second, such as sizing pumps, comparing utility readings, or reconciling international spec sheets.

Is the Litres per second to Imperial Gallons per Second factor exact or rounded?

The factor 0.21996924829910.2199692482991 is shown to the precision the converter uses, which is ample for engineering and everyday work. Only extreme-scale or laboratory calculations would ever notice rounding in the final digits.

Complete Litres per second conversion table

l/s
UnitResult
Cubic Millimeters per second (mm3/s)1000000 mm3/s
Cubic Centimeters per second (cm3/s)1000 cm3/s
Cubic Decimeters per second (dm3/s)1 dm3/s
Cubic Decimeters per minute (dm3/min)60 dm3/min
Cubic Decimeters per hour (dm3/h)3600 dm3/h
Cubic Decimeters per day (dm3/d)86400 dm3/d
Cubic Decimeters per year (dm3/a)31557600 dm3/a
Millilitres per second (ml/s)1000 ml/s
Centilitres per second (cl/s)100 cl/s
Decilitres per second (dl/s)10 dl/s
Litres per minute (l/min)60 l/min
Litres per hour (l/h)3600 l/h
Litres per day (l/d)86400 l/d
Litres per year (l/a)31557600 l/a
Kilolitres per second (kl/s)0.001 kl/s
Kilolitres per minute (kl/min)0.06 kl/min
Kilolitres per hour (kl/h)3.6 kl/h
Cubic meters per second (m3/s)0.001 m3/s
Cubic meters per minute (m3/min)0.06 m3/min
Cubic meters per hour (m3/h)3.6 m3/h
Cubic meters per day (m3/d)86.4 m3/d
Cubic meters per year (m3/a)31557.6 m3/a
Cubic kilometers per second (km3/s)1e-12 km3/s
Imperial Gallons per Second (imp-gal/s)0.2199692 imp-gal/s
Imperial Gallons per Minute (imp-gal/min)13.19815 imp-gal/min
Imperial Gallons per Hour (imp-gal/h)791.8893 imp-gal/h
Imperial Gallons per Day (imp-gal/d)19005.34 imp-gal/d
Teaspoons per second (tsp/s)202.8841 tsp/s
Tablespoons per second (Tbs/s)67.62805 Tbs/s
Cubic inches per second (in3/s)61.02374 in3/s
Cubic inches per minute (in3/min)3661.425 in3/min
Cubic inches per hour (in3/h)219685.5 in3/h
Fluid Ounces per second (fl-oz/s)33.81402 fl-oz/s
Fluid Ounces per minute (fl-oz/min)2028.841 fl-oz/min
Fluid Ounces per hour (fl-oz/h)121730.5 fl-oz/h
Cups per second (cup/s)4.226753 cup/s
Pints per second (pnt/s)2.113376 pnt/s
Pints per minute (pnt/min)126.8026 pnt/min
Pints per hour (pnt/h)7608.155 pnt/h
Quarts per second (qt/s)1.056688 qt/s
Gallons per second (gal/s)0.2641721 gal/s
Gallons per minute (gal/min)15.85032 gal/min
Gallons per hour (gal/h)951.0194 gal/h
Cubic feet per second (ft3/s)0.03531467 ft3/s
Cubic feet per minute (ft3/min)2.11888 ft3/min
Cubic feet per hour (ft3/h)127.1328 ft3/h
Cubic yards per second (yd3/s)0.001307951 yd3/s
Cubic yards per minute (yd3/min)0.07847704 yd3/min
Cubic yards per hour (yd3/h)4.708622 yd3/h

Volume flow rate conversions