Chemistry and Combustion

Atoms, Protons, Neutrons and Electrons

Atoms are the basic building blocks of matter. Each atom is composed of a central nucleus containing protons (positively charged) and neutrons (neutral), surrounded by electrons (negatively charged) in orbitals. The number of protons determines the atomic number and the element’s identity. In fire chemistry, atoms are the starting point for understanding how chemical reactions occur during combustion. For example, the combination of oxygen atoms with fuel atoms results in energy release and fire.

Molecules, Elements, Compounds, Mixtures and Radicals

A molecule is formed when two or more atoms bond together chemically. An element is a pure substance made up of only one type of atom. Compounds consist of two or more elements chemically bonded in fixed proportions, such as water (H₂O). Mixtures, unlike compounds, involve substances physically combined without a fixed ratio, like smoke or air. Radicals are unstable groups of atoms that exist momentarily during chemical reactions and often drive combustion processes by promoting chain reactions that sustain a fire.

Atomic Mass, Molecular Mass and Valency

Atomic mass is the mass of an individual atom, based largely on the number of protons and neutrons in the nucleus. Molecular mass is the sum of the atomic masses of all atoms in a molecule. These values are essential for calculating quantities in chemical reactions, including those involved in fire suppression or fuel combustion. Valency is the combining power of an element, determining how atoms bond in molecules. For instance, carbon has a valency of 4 and oxygen 2, forming the basis for carbon dioxide (CO₂), a key product of combustion.

Reactivity

Reactivity refers to how readily a substance undergoes chemical change. Highly reactive materials like magnesium or alkali metals can ignite easily, even spontaneously. Understanding reactivity is vital for fire safety, especially when storing chemicals or dealing with hazardous materials that may react violently when exposed to air, water, or heat.

The Use of Symbols to Write Formulae and Scientific Terms (Nomenclature)

Chemical symbols and formulae provide a universal shorthand for representing substances and their reactions. For example, methane is written as CH₄ and carbon dioxide as CO₂. Nomenclature, the systematic naming of chemical substances, allows fire professionals to interpret labels, understand chemical hazards, and communicate effectively during incidents involving hazardous materials.

Interpret Simple Formulae and Equations

Firefighters often encounter chemical equations in safety data sheets and training. Being able to interpret equations such as CH₄ + 2O₂ → CO₂ + 2H₂O helps in understanding the by-products of combustion, such as toxic gases, heat, and smoke, and allows informed decision-making about extinguishing methods and protective measures.

The Components of the Fire Tetrahedron

The fire tetrahedron includes four essential components: fuel, heat, oxygen, and a sustaining chemical chain reaction. Removing any one of these elements will interrupt the fire. This model is fundamental in understanding fire behaviour and forms the basis of most firefighting strategies, including cooling, smothering, and chemical inhibition.

Heat of Reaction and Calorific Value

The heat of reaction refers to the amount of heat released or absorbed during a chemical reaction. In combustion, this is typically exothermic, releasing energy. Calorific value is the total amount of heat released when a specific amount of fuel is completely burned. Fuels with high calorific value, such as hydrocarbons, produce more intense fires and require greater attention to extinguishment and cooling.

Colour

Colour is a physical property that helps identify substances. The colour of flames, smoke, liquids, or solids can indicate the presence of certain chemicals or the completeness of combustion, aiding in fire investigation and hazard assessment.

Types of Flames and Practical Examples: Premixed and Diffusion

Premixed flames occur when fuel and oxygen mix before ignition, resulting in a uniform and controlled burn — such as in gas burners. Diffusion flames are more common in uncontrolled fires, where fuel vapours mix with oxygen during combustion, as seen in candle flames or petrol fires. Firefighters must recognise flame types to assess fire behaviour and select suitable extinguishing agents.

Laminar and Turbulent Flow

Laminar flow describes smooth, layered gas movement, while turbulent flow is chaotic and mixed. Turbulent flow is common in large fires and enhances combustion by increasing the contact between fuel and oxygen. This is particularly important in ventilation and fire development, where airflow conditions influence fire growth and smoke spread.

Flashpoint, Fire Point and Sustained Fires

Flashpoint is the lowest temperature at which a liquid gives off enough vapour to ignite momentarily. Fire point is the temperature at which vapour continues to burn after ignition. A sustained fire occurs when the conditions allow continuous combustion. Understanding these thresholds helps identify risks, especially when dealing with flammable liquids or heated environments.

Colour

Ignition: Spontaneous Ignition Temperature, Self-Heating and Spontaneous Combustion, Smouldering

The spontaneous ignition temperature is the lowest temperature at which a substance will ignite without an external flame. Self-heating occurs when internal chemical or biological reactions produce enough heat to start combustion. Spontaneous combustion is the resulting fire, often seen in oily rags or compost heaps. Smouldering is slow, flameless combustion and can go unnoticed until it intensifies, making early detection critical.

Factors: Starvation, Smothering, Cooling, Halting the Chemical Reaction

Starvation removes the fuel source, smothering excludes oxygen, cooling reduces temperature below the ignition point, and chemical inhibition disrupts the chain reaction. These principles underpin extinguishing methods and inform the selection of firefighting media depending on the fire type and conditions.