Coolant Flow Calculator

Coolant Flow Calculator — Calculate Engine Cooling Requirements

Calculate the required coolant flow rate for your engine with our comprehensive calculator. Determine optimal cooling system performance based on engine specifications and operating conditions.

Step 1: Engine Specifications

Engine Power (HP)

Cooling System Efficiency (%)

30%

Engine Type

Custom Heat Rejection Factor

1.0

Understanding Heat Rejection

Internal combustion engines typically reject 25-40% of their total energy output as heat through the cooling system. The exact percentage depends on engine design, efficiency, and operating conditions.

Step 2: Cooling Parameters

Temperature Difference (ΔT)

10°C

Coolant Type

Flow Rate Units

Show engine type comparison table

Show flow rate visualization

About Temperature Difference

The temperature difference (ΔT) is the temperature rise of coolant as it passes through the engine. A typical ΔT is 8-12°C for efficient heat transfer. Lower ΔT requires higher flow rates, while higher ΔT may indicate insufficient cooling.

Coolant Flow Results

Summary

Engine Comparison

Breakdown

Required Coolant Flow Rate

45.0 LPM

Based on 300 HP engine with 30% heat rejection

Engine Power

300 HP

Heat to Reject

90 HP

Temperature ΔT

10°C

Coolant Type Factor

1.0

Engine Type Flow Rate Comparison

Engine Type	Heat Rejection Factor	Required Flow Rate	Heat to Reject

Cooling System Requirements

Coolant Flow Formula

Flow Rate = (Engine Power × Heat Rejection % × 0.7457) / (ΔT × 4.186 × Coolant Factor)

To calculate coolant flow rate: Convert engine HP to kW (×0.7457), multiply by heat rejection percentage, then divide by the product of temperature difference, water’s specific heat capacity (4.186 kJ/kg°C), and coolant-specific factor.

Need Professional Cooling System Analysis?

Connect with our automotive experts for detailed cooling system evaluation, radiator sizing, and custom cooling solutions for your vehicle.

Get Professional Analysis