Revolutionizing Gas Chromatography with the HyperChrom GC System, Gas chromatography (GC) has taken a significant leap forward with the introduction of the HyperChrom GC system. This innovative technology offers a range of benefits that can transform the way laboratories conduct their analytical processes. Let's explore the key features of the HyperChrom GC system and the compelling business case for its adoption.
Fast and Effective:
The HyperChrom GC system represents a radical advancement in traditional GC technology, offering a faster and more efficient process without compromising accuracy. With high resolution and impressive 60-second cycle times, the spatial temperature gradient system enables rapid high-temperature GC with almost instant cooling. This results in swift and precise analysis, enhancing productivity in the laboratory.
Lower Costs:
As a market leader in delivering low-cost per-sample results, the HyperChrom GC system boasts exceptional sample throughput that can be 5 to 20 times higher than traditional methods. This increased efficiency translates to reduced requirements for measurement systems, leading to savings in space, service costs, consumables, and energy consumption. By optimizing resource utilization, the HyperChrom GC system offers a cost-effective solution for analytical laboratories.
Versatile:
The HyperChrom system's unique features provide it with unparalleled capabilities. For instance, the spatial thermal gradient across the column enhances resolution and lowers elution temperatures, making it an ideal high-temperature GC system. The integrated liquid cooling of the column support allows for low starting temperatures, expanding the measurement range to include highly volatile substances. Even at low temperatures, the system maintains high retention for sharp signals, ensuring accurate and reliable results across a wide range of applications.
GC Brought Up-to-Date:
Despite its advanced technology, the HyperChrom GC system can be seamlessly integrated into existing laboratory workflows. Users can operate it like a conventional GC, benefiting from faster analysis and reduced operational costs. With no need for retraining and compatibility with existing consumables, the transition to the HyperChrom system is smooth and cost-effective.
Moreover, one HyperChrom unit can replace up to 10 traditional GCs, leading to significant savings in consumables and power consumption. The system's energy efficiency, consuming only around 150 watts compared to the 1000 watts used by classic GCs, further enhances its sustainability. Additionally, the option to use hydrogen as a carrier gas, replacing the scarce helium, contributes to the system's eco-friendly profile.
In conclusion, the HyperChrom GC system offers a high-throughput solution with superior chromatography quality and high resolution. By reducing energy consumption, consumables usage, and cycle times to just 60 seconds, this system presents a compelling business case for laboratories seeking to enhance their analytical capabilities while optimizing costs and efficiency. Embrace the future of gas chromatography with the HyperChrom GC system and unlock a new level of performance and sustainability in your laboratory operations.