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Fuel Tech Experts FAQ » Cetane/2-EHN » Cetane improver mixing ratio?

Cetane improver mixing ratio?

Alex by Alex

Expert answer:

0

Quick Answer

Mix cetane improver at ratios of 1:200 to 1:1000 (improver to diesel fuel), typically 0.1-0.5% by volume. Add improver before fueling to ensure proper mixing through fuel agitation. For bulk applications, allow 30 minutes to several hours mixing time depending on tank size.

Expanded Answer (Simplified)

Getting the mixing ratio right is crucial for cetane improver effectiveness. The standard ratio ranges from 1:200 to 1:1000, which means for every 1ml of cetane improver, you’re mixing it with 200-1000ml of diesel fuel. This translates to the common dosage recommendations of 1-5ml per litre.

The key to proper mixing is timing – always add the cetane improver to your tank before adding the diesel fuel. The natural agitation from fuel flowing into the tank provides excellent mixing action, ensuring the additive is distributed evenly throughout the fuel.

For larger bulk applications like fleet fueling or storage tanks, you’ll need to allow more time for complete mixing. Depending on tank size and temperature, this can range from 30 minutes for smaller tanks to several hours for large storage facilities. Proper mixing ensures consistent performance benefits across all the fuel.

Expanded Answer (Technical)

Cetane improver mixing protocols require precise ratio calculations and controlled distribution techniques to achieve homogeneous fuel treatment while preventing concentration gradients that could affect combustion consistency and system performance.

Ratio Calculation Methodology

Mixing ratio determination involves complex calculations considering additive concentration, target cetane improvement, fuel volume, and distribution efficiency to achieve optimal treatment levels throughout the fuel mass.

  • Volume-based ratios: 1:200 to 1:1000 (improver:fuel) for standard applications
  • Percentage calculations: 0.1-0.5% by volume for most commercial formulations
  • Concentration factors: Adjustment for different active ingredient concentrations
  • Temperature corrections: Density variations affecting accurate ratio calculations

Mixing Dynamics and Distribution

Effective cetane improver distribution requires understanding of fluid dynamics, molecular diffusion, and mechanical mixing processes to ensure uniform concentration throughout the fuel volume.

  • Turbulent mixing: Fuel flow agitation providing primary distribution mechanism
  • Molecular diffusion: Secondary distribution process for fine-scale homogenization
  • Density stratification: Prevention of concentration gradients in storage tanks
  • Temperature effects: Viscosity and density impacts on mixing efficiency

Application Techniques

Professional cetane improver application employs specific techniques optimized for different fuel handling scenarios, from individual vehicle tanks to large-scale bulk fuel treatment operations.

  • Vehicle applications: Add to tank before fueling for optimal agitation mixing
  • Bulk treatment: Injection systems with circulation pumps for large volume mixing
  • Storage tank treatment: Staged addition with mechanical mixing for uniform distribution
  • Pipeline injection: Continuous dosing systems for fuel distribution networks

Quality Assurance Protocols

Mixing effectiveness verification requires sampling and analysis procedures to confirm uniform distribution and proper concentration levels throughout the treated fuel volume.

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