The multi EA 4000 is a powerful solution for solid sample analysis, combining advanced automation with high precision and reliability. Thanks to its patented technologies, the system ensures safe, consistent performance even with a wide variety of sample types. Designed for efficiency, it minimizes both maintenance requirements and operating costs, making it an ideal choice for laboratories seeking dependable and cost-effective solids analysis
Superior Performance with Minimal Maintenance
The multi EA 4000 is engineered for durability and efficiency, making it the ideal solution for analyzing aggressive and saline samples that cause excessive wear in conventional systems. Its highly resistant materials, combined with an advanced optics arrangement and gas purification system, ensure a robust C/S detector with exceptional long-term stability and minimal maintenance needs. This design reduces maintenance efforts to a minimum while maximizing operating uptime. With low operating costs and a highly reliable analytical system, every process step is optimized for maximum efficiency and effectiveness.
- Virtually wear-free ceramic combustion tubes – Durable and cost-effective, replacing fragile and short-lived quartz tubes
- High-temperature ceramic technology (HTC) – Eliminates the need for catalysts, significantly reducing chemical consumption
- Selective CO₂, SO₂, and HCl detection – Removes the need for complex chromatographic separation of oxidation products
- No auxiliary gas required – Cost-effective and efficient carbon and sulfur analysis
- Handles sample weights up to 3 g – Eliminates the need for tedious sample homogenization
Advanced Chlorine Analysis with Patented Detection System
Thanks to variable gas flow management and an optimized wide-range coulometer, the multi EA 4000 provides highly accurate chlorine analysis across a broad concentration range, from low ppm to weight percent levels.
- Patented combination electrode – Utilizes cutting-edge ceramic technology, eliminating the need for internal electrolytes, membranes, or diaphragms
- Self-cleaning silver generator electrode and automatic stirring function – Ensures continuous, stable performance with minimal intervention
- Integrated cooling system for continuous operation – Reduces electrolyte evaporation, guaranteeing long-term stability
- High chloride absorption capacity – Enables uninterrupted routine analyses, even with extreme chloride loads, without frequent electrolyte changes
Automated Analysis for High Sample Throughput
Designed to increase efficiency and reduce manual intervention, the multi EA 4000 automates TOC determination using the differential method.
- FPG 48 solids sampler – Provides high sample capacity, processing up to 48 sample boats in a single run
- Additional TIC and TOC modules – Enable direct and automated determination of total organic and inorganic carbon
- Optimized sample handling – Allows different sample matrices to be analyzed in the same run under optimal conditions
- Maintenance-free open gas lock system – Prevents contamination and wear, eliminating the need for problematic sample ports
Intelligent System Monitoring for Uninterrupted Operation
Equipped with a comprehensive method library, the multi EA 4000 ensures precise, reliable, and fully automated sample analysis.
- Self Check System (SCS) – Monitors gas flow, temperature, and other system parameters to ensure smooth, trouble-free operation
- Automatic gas shut-off and low standby temperature – Improves energy efficiency and extends component lifespan
With its innovative design, intelligent automation, and minimal maintenance requirements, the multi EA 4000 delivers high-precision elemental analysis while ensuring maximum efficiency, reliability, and cost-effectiveness.
The multi EA 4000 is the perfect solution for solids analysis, combining safe automation, high analytical precision, and reliability through its patented innovative technologies. Designed to handle a wide variety of sample matrices, it ensures accurate and consistent results while maintaining low operating costs and minimal maintenance requirements.
The All-Rounder in Solids Analysis
The multi EA 4000 is a fully automated solution for determining TS, TC, TX contents and environmentally relevant parameters such as TOC, TIC, EC, and BOC in soil, sediments, waste, minerals, and other organic and inorganic solids. Its modular design allows laboratories to expand from a single-element analyzer to a fully automated multi-element system at any time, providing customized flexibility to meet diverse analytical needs.
- Wide-range NDIR detector – Measures carbon and sulfur across a broad dynamic range from ppm to weight percent
- HTC technology – Enables catalyst-free high-temperature decomposition, handling even the most challenging sample matrices
- Durable ceramic combustion tubes – Highly resistant to aggressive samples, ensuring low wear and reduced operating costs
- Long-lasting heating elements – Maximizes uptime for continuous operation
- Simultaneous carbon and sulfur analysis – Independent of element concentration for efficient processing
- Fully automated TOC and TIC determination – Analyzes both parameters in a single step, reducing processing time
- Chlorine determination up to weight percent levels – Allows for easy, high-precision chlorine analysis
- Multi-element capability – Carbon, sulfur, and chlorine analysis in a single system, particularly valuable for waste analysis
- Flame sensor technology – Optimizes sample decomposition in chlorine analysis, ensuring accurate results
- Self Check System – Continuously monitors operations for maximum safety and reliability
- User-friendly software navigation – Intuitive interface for easy operation and precise measurement results
- Preset application methods – Simplifies workflows and saves valuable analysis time
With its versatile capabilities, innovative automation, and robust design, the multi EA 4000 delivers high-precision elemental analysis while ensuring efficiency, cost-effectiveness, and ease of use.
|
Detector |
Sample Supply |
Precision |
Mın. measurement time |
Parameters |
Dıgestıon Mode |
Gas supply |
Sample quantity |
Lımıt of Detection |
Measurement Range |
multi EA 4000 C with pyrolysis option
450-126.568 |
C: NDIR |
horizontal, manual or automated (accessory required) |
at 12% C, RSD < 2 % |
2 min |
TC, TOC, TIC (accessories required), EC, OC, BOC |
High-temperature combustion, catalyst-free (oxygen), Pyrolysis (oxygen/argon) |
Oxygen 2.5
Argon |
up to 3 g |
C: 3 µg/L |
C: 0 – 100 wt-% |
multi EA 4000 C
450-126.564 |
C: NDIR |
horizontal, manual or automated (accessory required) |
at 12% C, RSD < 2 % |
2 min |
TC, TOC, TIC (accessories required) |
High-temperature combustion, catalyst-free |
Oxygen 2.5 |
up to 3 g |
C: 3 µg/L |
C: 0 – 100 wt-% |
multi EA 4000 Cl
450-126.566 |
Cl: coulometric titration |
horizontal, manual or automated (accessory required) |
at 3.5 % Cl, RSD < 2 % |
3 min |
TCl |
High-temperature combustion, catalyst-free |
Oxygen 2.5
Argon |
up to 3 g |
Cl: 0.3 ppm |
Cl: 0 – 10 wt-% |
multi EA 4000 CS
450-126.440 |
C: NDIR S: NDIR |
horizontal, manual or automated (accessory required) |
at 12 % C, RSD < 2 % at 2 % S, RSD < 2 % |
2 min |
TS , TC, TOC, TIC (accessories required) |
High-temperature combustion, catalyst-free |
Oxygen 2.5 |
up to 3 g |
C: 3 ppm
S: 3 ppm |
C: 0 – 100 wt-%
S: 0 – 20 wt-% |
multi EA 4000 CS with pyrolysis option
450-126.569 |
C: NDIR S: NDIR |
horizontal, manual or automated (accessory required) |
at 12 % C, RSD < 2 % at 2 % S, RSD < 2 % |
2 min |
TS, TC, TOC, TIC (with accessories), EC, OC, BOC |
High-temperature combustion (oxygen), catalyst-free Pyrolysis (oxygen/argon) |
Oxygen 2.5
Argon |
up to 3 g |
C: 3 ppm
S: 3 ppm |
C: 0 – 100 wt-%
S: 0 – 20 wt-% |
multi EA 4000 S
450-126.565 |
S: NDIR |
horizontal, manual or automated (accessories required) |
at 2 %, RSD < 2 % |
2 min |
TS |
High-temperature combustion, catalyst-free |
Oxygen 2.5 |
up to 3 g |
S: 3 ppm |
S: 0 – 20 wt-% |
Standards
ASTM D1552-IR, ASTM D1619, ASTM D4239-A, ASTM D5016, DIN EN 13137, DIN EN 15936, DIN ISO 15178, ISO 10694, ISO 15178, ISO 15936, ISO 19579
