The PAC Herzog CID 510 Cetane Ignition Delay Analyzer (0141-006-001) is a fully automated derived cetane number analyzer for diesel fuel oils and related fuels. It measures DCN across diesel, biodiesel, FAME, HVO, BTL, B100, jet fuel and GTL, with approved method support for ASTM D7668, EN 16715 and IP 615.

Key Features

Brand: PAC Herzog
Product Type: Fully automated derived cetane number analyzer
Model / Part Number: CID 510 / 0141-006-001
Measured Parameter: Derived Cetane Number (DCN)
DCN Range: 15 to 100 DCN
Approved Methods: ASTM D7668, EN 16715 and IP 615
Correlation Methods: ASTM D613, ISO 5165, IP 41, EN 16715 and IP 615
Approved Fuel Specifications: ASTM D975, ASTM D6751, ASTM D7467 and EN 590
Fuel Types: Diesel fuels, biodiesel, FAME, HVO, BTL, B100, jet fuel and GTL
Combustion Chamber: Stainless steel
Sample Introduction: Sample poured into vessel, then automatically pressurised by externally connected nitrogen supply
Sample Volume: 60 to 160 mL for testing
Test Duration: 30 minutes
Unit Warm-Up: 40 minutes
Operation: Fully automated one-button operation
Calibration: Automatic calibration sequence using primary reference fuels
Reporting: Detailed results with date and time, built-in printer and storage for the last 100 tests
Data Export: Flexible report formats for built-in printer and export to LIMS or Excel
Combustion Air Requirement: Compressed synthetic air, 19.5 to 20.5% O2, 22 to 25 bar delivery pressure
Nitrogen Requirement: Compressed nitrogen, 99.9% purity, 8 to 10 bar delivery pressure
Electrical Connection: 115 or 230 V, 50/60 Hz, automatic switching, maximum 3 kW input power
Operating Temperature: 10 to 35 °C, recommended 15 to 25 °C
Dimensions: 600 W x 660 H x 660 D mm
Weight: 80 kg

Note: External compressed synthetic air, nitrogen and cooling system requirements should be confirmed during site preparation.

Benefits

Supports automated DCN testing for refineries, fuel blenders, quality control laboratories and research facilities.
Helps reduce operator handling through one-button operation and automated calibration workflows.
Provides traceable reporting with built-in printing, stored results and export options for laboratory data systems.
Uses electronically controlled high-pressure fuel injection to support repeatable sample introduction and combustion behaviour.
Includes safety functions such as fire monitoring, suppression, over-pressure protection and coolant flow detection.
Supports compact installation compared with CFR engine workflows, with no separate room required according to the product brochure.

Why Choose the PAC Herzog CID 510 Cetane Ignition Delay Analyzer (0141-006-001)?

The PAC Herzog CID 510 Cetane Ignition Delay Analyzer (0141-006-001) is designed for laboratories that require automated derived cetane number measurement with recognised method support for ASTM D7668, EN 16715 and IP 615. John Morris Group supplies this PAC Herzog analyzer for Australian petrochemical, fuel testing and quality control customers requiring reliable DCN analysis equipment.

Key Features

Brand: PAC Herzog

Product Type: Fully automated derived cetane number analyzer

Model / Part Number: CID 510 / 0141-006-001

Measured Parameter: Derived Cetane Number (DCN)

DCN Range: 15 to 100 DCN

Approved Methods: ASTM D7668, EN 16715 and IP 615

Correlation Methods: ASTM D613, ISO 5165, IP 41, EN 16715 and IP 615

Approved Fuel Specifications: ASTM D975, ASTM D6751, ASTM D7467 and EN 590

Fuel Types: Diesel fuels, biodiesel, FAME, HVO, BTL, B100, jet fuel and GTL

Combustion Chamber: Stainless steel

Sample Introduction: Sample poured into vessel, then automatically pressurised by externally connected nitrogen supply

Sample Volume: 60 to 160 mL for testing

Test Duration: 30 minutes

Unit Warm-Up: 40 minutes

Operation: Fully automated one-button operation

Calibration: Automatic calibration sequence using primary reference fuels

Reporting: Detailed results with date and time, built-in printer and storage for the last 100 tests

Data Export: Flexible report formats for built-in printer and export to LIMS or Excel

Combustion Air Requirement: Compressed synthetic air, 19.5 to 20.5% O2, 22 to 25 bar delivery pressure

Nitrogen Requirement: Compressed nitrogen, 99.9% purity, 8 to 10 bar delivery pressure

Electrical Connection: 115 or 230 V, 50/60 Hz, automatic switching, maximum 3 kW input power

Operating Temperature: 10 to 35 °C, recommended 15 to 25 °C

Dimensions: 600 W x 660 H x 660 D mm

Weight: 80 kg

Note: External compressed synthetic air, nitrogen and cooling system requirements should be confirmed during site preparation.

Benefits

Supports automated DCN testing for refineries, fuel blenders, quality control laboratories and research facilities.

Helps reduce operator handling through one-button operation and automated calibration workflows.

Provides traceable reporting with built-in printing, stored results and export options for laboratory data systems.

Uses electronically controlled high-pressure fuel injection to support repeatable sample introduction and combustion behaviour.

Includes safety functions such as fire monitoring, suppression, over-pressure protection and coolant flow detection.

Supports compact installation compared with CFR engine workflows, with no separate room required according to the product brochure.

Why Choose the PAC Herzog CID 510 Cetane Ignition Delay Analyzer (0141-006-001)?

PAC Herzog CID 510 Cetane Ignition Delay Analyzer

Key Features

Benefits

Why Choose the PAC Herzog CID 510 Cetane Ignition Delay Analyzer (0141-006-001)?

Key Features

Benefits

Why Choose the PAC Herzog CID 510 Cetane Ignition Delay Analyzer (0141-006-001)?

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