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

1 imp-gal/h = 0.001262803 l/sl/simp-gal/h
Formula
1 imp-gal/h = 0.001262803 l/s

Understanding Imperial Gallons per Hour to Litres per second Conversion

Both imperial gallons per hour (imp-gal/h) and litres per second (l/s) express volume flow rate — how much fluid moves past a point per unit of time. An imperial gallon per hour measures an imperial (UK) gallon of 4.54609 litres, while a litre per second measures one litre passing a point each second. This conversion comes up in plumbing, irrigation, pump sizing, HVAC and fluid-engineering work where flow specs are quoted in different unit systems.

Conversion Formula

To convert imperial gallons per hour to litres per second, multiply by the fixed factor below:

1 imp-gal/h=0.001262802777778 l/s1\ \text{imp-gal/h} = 0.001262802777778\ \text{l/s}

So the rule is simply: l/s = imp-gal/h × 0.001262802777778. To go the other way, multiply by 791.88929387672791.88929387672.

Step-by-Step Example

Convert 9 imp-gal/h to l/s.

Write the formula, substitute the value, then calculate:

l/s=imp-gal/h×0.001262802777778\text{l/s} = \text{imp-gal/h} \times 0.001262802777778

=9×0.001262802777778=0.011365225 l/s= 9 \times 0.001262802777778 = 0.011365225\ \text{l/s}

So 9 imp-gal/h equals 0.0113652250.011365225 l/s.

How to Convert Imperial Gallons per Hour to Litres per second

Converting imperial gallons per hour to litres per second takes one multiplication using the fixed factor. Here is the process with 9 imp-gal/h as a worked example.

  1. Write the conversion factor. One imperial gallon per hour equals a fixed number of litres per second:

1 imp-gal/h=0.001262802777778 l/s1\ \text{imp-gal/h} = 0.001262802777778\ \text{l/s}

  1. Set up the multiplication. Multiply your flow value by that factor:

l/s=9 imp-gal/h×0.001262802777778 l/simp-gal/h\text{l/s} = 9\ \text{imp-gal/h} \times 0.001262802777778\ \frac{\text{l/s}}{\text{imp-gal/h}}

  1. Cancel the units. The imp-gal/h units cancel, leaving the result in l/s:

=9×0.001262802777778 l/s= 9 \times 0.001262802777778\ \text{l/s}

  1. State the result. Complete the arithmetic:

=0.011365225 l/s= 0.011365225\ \text{l/s}

So 9 imp-gal/h = 0.0113652250.011365225 l/s.

Imperial Gallons per Hour to Litres per second conversion table

Imperial Gallons per Hour (imp-gal/h)Litres per second (l/s)
00
10.001262803
20.002525606
30.003788408
40.005051211
50.006314014
60.007576817
70.008839619
80.01010242
90.01136523
100.01262803
150.01894204
200.02525606
250.03157007
300.03788408
400.05051211
500.06314014
600.07576817
700.08839619
800.1010242
900.1136523
1000.1262803
1500.1894204
2000.2525606
2500.3157007
3000.3788408
4000.5051211
5000.6314014
6000.7576817
7000.8839619
8001.010242
9001.136523
10001.262803
20002.525606
30003.788408
40005.051211
50006.314014
1000012.62803
2500031.57007
5000063.14014
100000126.2803
250000315.7007
500000631.4014
10000001262.803

What is the Imperial Gallon per Hour?

The imperial gallon per hour (imp-gal/h) is a unit of volumetric flow rate expressing how many imperial gallons of fluid pass a point in one hour. It is used in the UK and other Commonwealth countries for pumps, fuel consumption, and plumbing flow ratings.

Definition

One imperial gallon per hour equals one imperial gallon of volume divided by one hour (3,600 seconds):

1 imp-gal/h=0.00126280 l/s1\ \text{imp-gal/h} = 0.00126280\ \text{l/s}

The imperial gallon is defined as exactly 4.54609 litres, so dividing by 3,600 seconds gives 4.54609 / 3600 = 0.00126280 L/s (equivalently 4.54609 L/h).

Origin and History

The imperial gallon was established by the British Weights and Measures Act of 1824, originally defined as the volume of 10 pounds of water at a specified temperature. It was later fixed by reference to the litre. The "per hour" rate arose naturally in the 19th and 20th centuries as a practical measure for pump throughput and fuel usage, hours being a convenient interval for slow, steady flows.

Law and Notable Facts

The imperial gallon (4.54609 L exactly) is legally distinct from and about 20% larger than the US liquid gallon of 3.785411784 L. As a result an imperial gallon per hour is likewise about 20% greater than a US gallon per hour. Since UK metrication, the imperial gallon is no longer a primary trade unit but persists in fuel-economy figures (miles per gallon) and equipment specifications.

Real-World Examples and Conversions

  • A small garden or aquarium pump rated at 100 imp-gal/h moves about 454.6 litres of water every hour, roughly 0.126 L/s.
  • A domestic tap running at 1 imperial gallon per hour is a bare trickle of about 4.55 L each hour.
  • 1 imp-gal/h ≈ 0.833 US gal/h, reflecting the larger imperial gallon.
  • A pump moving 220 imp-gal/h delivers about 1,000 L/h, or roughly 0.278 L/s.

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.

Frequently Asked Questions

What is the formula to convert imperial gallons per hour to litres per second?

Multiply the flow in imp-gal/h by the conversion factor 0.001262802777778. In symbols, l/s=imp-gal/h×0.001262802777778\text{l/s} = \text{imp-gal/h} \times 0.001262802777778. This single-step multiplication works for any value.

How many litres per second are in 1 imperial gallon per hour?

There are 0.0012628027777780.001262802777778 litres per second in one imperial gallon per hour. Equivalently, one litre per second equals 791.88929387672791.88929387672 imperial gallons per hour.

How do I convert 9 imp-gal/h to l/s?

Multiply: 9×0.001262802777778=0.0113652259 \times 0.001262802777778 = 0.011365225 l/s. So 9 imp-gal/h is about 0.0113652250.011365225 l/s.

Where is the imperial gallons per hour to litres per second conversion used in practice?

It shows up whenever a pump, meter, or system rates flow in one unit but a spec sheet, code, or supplier uses the other — for example matching an irrigation controller, a fuel-transfer pump, or an HVAC water loop to its rated l/s figure.

Is the imperial gallons per hour to litres per second factor exact?

The imperial gallon is defined as exactly 4.54609 litres, so the conversion factor 0.001262802777778 is exact up to the digits shown here; any small rounding only appears in the final displayed result.

Complete Imperial Gallons per Hour conversion table

imp-gal/h
UnitResult
Cubic Millimeters per second (mm3/s)1262.803 mm3/s
Cubic Centimeters per second (cm3/s)1.262803 cm3/s
Cubic Decimeters per second (dm3/s)0.001262803 dm3/s
Cubic Decimeters per minute (dm3/min)0.07576817 dm3/min
Cubic Decimeters per hour (dm3/h)4.54609 dm3/h
Cubic Decimeters per day (dm3/d)109.1062 dm3/d
Cubic Decimeters per year (dm3/a)39851.02 dm3/a
Millilitres per second (ml/s)1.262803 ml/s
Centilitres per second (cl/s)0.1262803 cl/s
Decilitres per second (dl/s)0.01262803 dl/s
Litres per second (l/s)0.001262803 l/s
Litres per minute (l/min)0.07576817 l/min
Litres per hour (l/h)4.54609 l/h
Litres per day (l/d)109.1062 l/d
Litres per year (l/a)39851.02 l/a
Kilolitres per second (kl/s)0.000001262803 kl/s
Kilolitres per minute (kl/min)0.00007576817 kl/min
Kilolitres per hour (kl/h)0.00454609 kl/h
Cubic meters per second (m3/s)0.000001262803 m3/s
Cubic meters per minute (m3/min)0.00007576817 m3/min
Cubic meters per hour (m3/h)0.00454609 m3/h
Cubic meters per day (m3/d)0.1091062 m3/d
Cubic meters per year (m3/a)39.85102 m3/a
Cubic kilometers per second (km3/s)1.262803e-15 km3/s
Imperial Gallons per Second (imp-gal/s)0.0002777778 imp-gal/s
Imperial Gallons per Minute (imp-gal/min)0.01666667 imp-gal/min
Imperial Gallons per Day (imp-gal/d)24 imp-gal/d
Teaspoons per second (tsp/s)0.2562027 tsp/s
Tablespoons per second (Tbs/s)0.08540088 Tbs/s
Cubic inches per second (in3/s)0.07706095 in3/s
Cubic inches per minute (in3/min)4.623657 in3/min
Cubic inches per hour (in3/h)277.4194 in3/h
Fluid Ounces per second (fl-oz/s)0.04270044 fl-oz/s
Fluid Ounces per minute (fl-oz/min)2.562027 fl-oz/min
Fluid Ounces per hour (fl-oz/h)153.7216 fl-oz/h
Cups per second (cup/s)0.005337555 cup/s
Pints per second (pnt/s)0.002668778 pnt/s
Pints per minute (pnt/min)0.1601267 pnt/min
Pints per hour (pnt/h)9.607599 pnt/h
Quarts per second (qt/s)0.001334389 qt/s
Gallons per second (gal/s)0.0003335972 gal/s
Gallons per minute (gal/min)0.02001583 gal/min
Gallons per hour (gal/h)1.20095 gal/h
Cubic feet per second (ft3/s)0.00004459546 ft3/s
Cubic feet per minute (ft3/min)0.002675728 ft3/min
Cubic feet per hour (ft3/h)0.1605437 ft3/h
Cubic yards per second (yd3/s)0.000001651684 yd3/s
Cubic yards per minute (yd3/min)0.00009910102 yd3/min
Cubic yards per hour (yd3/h)0.005946061 yd3/h

Volume flow rate conversions