SI units vs US units

SI Units vs US Units in Engineering Calculations: What Engineers Need to Know

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In: General

When working in engineering, one of the most common yet overlooked challenges is unit conversion. The distinction between SI units vs US units can significantly impact the accuracy and clarity of your engineering calculations. Whether you’re designing a heat exchanger, running process simulations, or calculating fluid dynamics, using the wrong unit system can lead to serious design flaws.

SI units vs US units

This article explores the differences between SI units and US customary units, how to convert between them, and the implications for engineers working across international standards.

What Are SI Units?

The International System of Units (SI) is the most widely used measurement system globally. It is a modern version of the metric system and is officially adopted by almost every country in the world except the United States, Liberia, and Myanmar.

Common SI units used in engineering include:

  • Length: meter (m)
  • Mass: kilogram (kg)
  • Temperature: Kelvin (K) or Celsius (°C)
  • Time: second (s)
  • Force: newton (N)
  • Pressure: pascal (Pa)
  • Energy: joule (J)
  • Power: watt (W)
  • Volume: Liter (L), (m³)

What Are US Customary Units?

The US customary system is derived from British imperial units. Although it uses some of the same base units, it varies significantly in magnitude and is less standardized.

Common US units in engineering include:

  • Length: inch (in), foot (ft)
  • Mass: pound-mass (lbm)
  • Temperature: Fahrenheit (°F)
  • Force: pound-force (lbf)
  • Pressure: pounds per square inch (psi)
  • Energy: British thermal unit (BTU)
  • Power: horsepower (hp)
  • Volume: Gallon (gal), ft³

SI Units vs US Units: Key Differences

PropertySI UnitsUS Units
TemperatureCelsius / KelvinFahrenheit
PressurePascal (Pa), barpsi
EnergyJoule (J)BTU
LengthMeter, millimeterInch, foot
VolumeLiter (L), m³Gallon (gal), ft³
MassKilogramPound-mass (lbm)
ForceNewtonPound-force (lbf)
Flow Ratem³/s, L/sft³/min, gal/min (GPM)
PowerWattHorsepower (hp)

Why It Matters: Misunderstanding SI units vs US units has led to project failures, including the famous NASA Mars Climate Orbiter mishap, which was lost due to a mix-up between pound-force seconds and newton-seconds.

How to Convert Between SI Units and US Units

To avoid mistakes, you need accurate conversion factors. Some key examples:

Convert FromToMultiply By
inchmeter0.0254
footmeter0.3048
pound (lbm)kilogram0.45359237
psipascal6894.76
BTUjoule1055.06
horsepowerwatt745.7
Fahrenheit (°F)Celsius (°C)(F – 32) x 5/9
gallon (US)liter3.78541
cubic footcubic meter0.0283168

You can also use unit conversion tools like:

  • Webbusterz Engineering software – units converter
  • NIST.gov conversion tables
  • CoolProp libraries

Best Practices for Engineers Working with Mixed Units

  1. Always label units clearly in documentation, code, and designs.
  2. Use dimensional analysis to verify unit consistency.
  3. Avoid mixing systems within the same equation or dataset.
  4. Automate conversions in software tools to prevent human error.
  5. Default to SI units when collaborating internationally.
  6. Use software that supports both systems

Example: Heat Transfer Calculation in Both Systems

Below are two calculations looking at SI units vs US units;

Using SI Units:

Q = m × Cp × ΔT
Q = 1.2 kg/s × 4186 J/kg·K × (60 - 20)K
Q = 200,928 W or 200.9 kW

Using US Units:

Q = m × Cp × ΔT
Q = 2.65 lb/s × 1 BTU/lbm·°F × (140 - 100)°F
Q = 106 BTU/s ≈ 112 kW

Even though the two calculations are equivalent, rounding and conversion errors may cause mismatches. This is why understanding SI units vs US units is crucial.

Why Engineers Should Standardize on SI Units

  • Universally adopted in scientific and academic contexts
  • Reduces confusion and lowers risk of errors
  • More precise definitions and easier scalability
  • Integrated into most software platforms

However, some industries (e.g., HVAC, oil & gas in the US) still rely heavily on US units, so familiarity with both systems is essential.

In Summary

Understanding the difference between SI units vs US units is essential for any practicing engineer. From design specs to simulations and international collaboration, using the correct units can make or break your project.

Take the time to familiarize yourself with both systems, use accurate conversions, and always double-check your work. Precision in units equals precision in engineering. Hopefully this article did explain the difference between SI units vs US units