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Units and Dimensions
Jose V Parambil

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CB2101 – Aug 2024 Units & Dimensions

Units
Basis for any calculation or measurement
Metric system (France, 1795)
CGS system (centimeter-gram-second)
MTS system (metre-tonne-second)
MKS system (metre-kilogram-second)
MMGS system (millimeter-gram-second)
English units (pre 1824)
Imperial units (post 1824)
United States customary system (1832)
International System of Units (SI units) (1960)
7 base units
Derived units (products of base units)

J V Parambil, CBE IIT Patna 2
CB2101 – Aug 2024 Units & Dimensions

Basis of units – Temperature
Fahrenheit scale (Daniel Gabriel Fahrenheit, 1724)

212 °F – Boiling point of water

96 °F – Human body temperature 98.6 °F – Human body temperature

32 °F – Freezing point of water

0 °F – Mixture of ice, water, ammonium chloride

Centigrade/Celsius scale (Anders Celsius, 1742)

Absolute temperature scale (Lord Kelvin, 1848)

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CB2101 – Aug 2024 Units & Dimensions

Basis of units – Power
Horsepower (James Watt, 1782)

Rotates a mill wheel of 12 m 144 times per hour, using a force of 180 pounds-force.

𝑊 𝐹𝑑 180 𝑙𝑏𝑓 × 2𝜋 × 12𝑓𝑡 × 144 𝑓𝑡. 𝑙𝑏𝑓 𝑁. 𝑚
𝑃= = = = 32,555 ≈ 736
𝑡 𝑡 60 𝑚𝑖𝑛 𝑚𝑖𝑛 𝑠

1 𝑙𝑏𝑓 ≈ 4.448 𝑁; 1 𝑓𝑡 ≈ 0.305 𝑚

Current conversion: 1 Mechanical Horsepower = 745.7 W

Watt (1882) 𝐽 𝑁. 𝑚 𝑘𝑔. 𝑚2
1𝑊 =1 =1 =1 1 𝑊 = 1 𝑉. 𝐴
𝑠 𝑠 𝑠3

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CB2101 – Aug 2024 Units & Dimensions

SI Units – base units
Quantity (Dimen. symbol) Unit (symbol) Defining constant (symbol) Constant Value

Time (T) second (s) Transition frequency (𝚫𝝂𝑪𝒔 ) 9192631770 Hz

Length (L) metre (m) Speed of Light (c) 299792458 m/s

Mass (M) kilogram (kg) Plank constant (h) 6.62607015×10−34 J⋅s

Electric current (I) ampere (A) Elementary charge (e) 1.602176634×10−19 C

Therm. Temperature (𝚯) kelvin (K) Boltzmann constant (k) 1.380649×10−23 J/K

Amount of Substance (N) mole (mol) Avogadro constant (NA) 6.02214076×1023 mol−1

Luminous efficacy of 540 THz
Luminous Intensity (J) candela (cd) radiation (Kcd)
683 lm/W

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CB2101 – Aug 2024 Units & Dimensions

Redefinition of SI base units (2019)

Prior to 2019 After 2019

(https://en.wikipedia.org/wiki/2019_redefinition_of_the_SI_base_units) J V Parambil, CBE IIT Patna 6
CB2101 – Aug 2024 Units & Dimensions

Dimensions
Generalizes a physical quantity Quantity Dimension
Independent of unit
Density
Velocity
Acceleration
Force
Work
Power
Dimensional Analysis
A theoretical equation relating different physical quantities must be dimensionally homogeneous.

Dimensionless Numbers

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CB2101 – Aug 2024 Units & Dimensions

Rayleigh Method of Dimensional Analysis
The force (F) exerted on a body immersed in a flowing fluid is dependent on the relative velocity (u)
between the solid and the fluid, the fluid density (ρ), the fluid viscosity (μ), and a characteristic
length of the body (l). Determine the dimensionless groups in which the dimensional variables may
be arranged.

𝐹 ∝ 𝑢𝑎 𝜌𝑏 𝜇𝑐 𝑙^𝑑 𝐹 = 𝐾𝑢𝑎 𝜌𝑏 𝜇𝑐 𝑙 𝑑

𝐹 =

𝑢 =

𝜌 =

𝜇 =

𝑙 =

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CB2101 – Aug 2024 Units & Dimensions

Dimensionless Numbers

(https://www.3blmedia.com/news/new-gm-wind-tunnel-accelerates-fuel-saving-designs) J V Parambil, CBE IIT Patna 9
CB2101 – Aug 2024 Units & Dimensions

Dimensionless Numbers
Independent of units.
Similarity in different scales.

(https://www.imperial.ac.uk/aeronautics/research/facilities/10x5-wind-tunnel/projects/) J V Parambil, CBE IIT Patna 10
CB2101 – Aug 2024 Units & Dimensions

Dimensionless Numbers in Chemical Engineering
Geometric similarity
Kinematic similarity Name Equation Significance
Dynamic similarity 𝑢𝐷
Reynolds No. Inertial/viscous forces
𝜈
𝜈
Prandtl No. Momentum/thermal diffusivity
Heat, Mass, and Momentum 𝛼
transfers, Reaction rates Nusselt No.
ℎ𝐿
Convective/conductive heat transfer
𝑘
𝑘𝐺 𝐿
Friction factor Sherwood No. Total/diffusive mass transfer
𝐷𝐴𝐵
Fanning Thiele Modulus Reaction/diffusion rate
Darcy-Weisbach
Fanning Friction Δ𝑝𝐷
Pressure/inertial forces
𝑓𝐷 = 4𝑓 Factor 2𝐿𝑢2 𝜌

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CB2101 – Aug 2024 Units & Dimensions

Scale Up
How to achieve a similar quality and yield of
product across the scales?
Target to achieve a
Maintain consistency in quality.
similar degree of:
Secure confidence in process.
Mass transfer, Flow behavior,
Mixing Geometric similarity.

Reasonable cooling and heating
Temperature rates, heat transfer area, mixing.

Catalyst contact area, mixing,
Reaction rate process conditions.

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CB2101 – Aug 2024 Units & Dimensions

Scale Up
Mixing
𝑁𝐷𝑖2 𝜌 Turbulent when > 10,000.
Reynolds Number 𝑁𝑅𝑒 =
𝜇 Ensures similar flow pattern and heat
transfer coefficient.

Np is function of NRe.
Power Number 𝑃 = 𝑁𝑃 𝜌𝑁 3 𝐷𝑖5 Measures energy delivered to the fluid
Important for dispersions.

Flow Number 𝑄 = 𝑁𝑄 𝑁𝐷𝑖3 Measure of pumping action of impeller.

Highest fluid velocity and shear.
Tip Speed 𝑣𝑖,𝑡𝑖𝑝 = 𝜋𝐷𝑖 𝑁
Important for dispersions.

Choose similar geometry,
Fix scaleup criteria. Determine agitation rate.
agitator type.

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