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Wood Biomass Combustion Heat

Reference data and engineering information about wood biomass combustion heat for combustion applications.

woodbiomasscombustionheat

Overview

Engineering reference data for Wood Biomass Combustion Heat in combustion engineering.

Key Formulas

Heat Release

Q=m˙HVQ = \dot{m} \cdot HV

Fuel energy release rate.

Air-Fuel Ratio

AF=mairmfuelAF = \frac{m_{air}}{m_{fuel}}

Mass of air per mass of fuel.

Excess Air

EA=O221O2×100%EA = \frac{O_2}{21 - O_2} \times 100\%

From flue gas oxygen measurement.

Variables

SymbolDescriptionUnit
QQHeat release rateW
m˙\dot{m}Mass flow ratekg/s
HVHVHeating valueJ/kg
AFAFAir-fuel ratio

Practical Combustion Principles

The theoretical high heat value (HHV) of 8660 Btu/lb (20.14 MJ/kg) is derived from perfectly dry wood in a pure oxygen atmosphere and is not representative of real-world combustion. Practical combustion values depend heavily on moisture content, which reduces usable energy.

A key engineering rule of thumb is that one weight unit of wood has enough energy to evaporate approximately six weight units of water. This relationship is critical for understanding the energy penalty of using wet fuel.

Combustion Heat by Wood Condition

This table provides approximate combustion values for wood in different states.

2 rows
Approximate combustion heat values for wet and dry wood.
Condition of Wood
btu/lb
kJ/kg
kcal/kg
Wet400093002220
Dry7000163003890

Source: engineeringtoolbox.com

Moisture Content vs. Usable Energy

Moisture content impacts both volumetric and gravimetric energy density. The following table quantifies this effect.

4 rows
Impact of moisture content on usable energy from wood, relative to oven-dry wood.
Moisture Content (%)
Energy by Volume (%)
Energy by Weight (%)
0 (oven dry)100100
20 (air-dry)9781
50 (green)9262
100 (wet)8542

Source: engineeringtoolbox.com

Key Observations:

  • By volume, wet wood retains about 85% of the energy of oven-dry wood.
  • By weight, wet wood contains less than half (42%) of the energy of oven-dry wood.

Boiler Horsepower Equivalents

These are common industry conversion factors for wood-fired boiler systems.

  • 6.3 lbs of dry wood = 1 Boiler Horse Power
  • 11.6 lbs of wet wood = 1 Boiler Horse Power

(1 Boiler Horse Power = 33,475 Btu/hr = 9.809 kW)

Interactive Charts

Fire Wood - the Cord

Impact of moisture content on usable energy from wood, relative to oven-dry wood.

References