Shimadzu’s new-generation gc-2025 capillary gas chromatograph minimizes environmental impact by reducing power and carrier gas consumption while retaining the performance capabilities required for capillary analysis.
The gc-2025 incorporates a digital flow controller that controls both the carrier and detector gases and a newly designed energy-saving column oven that features small volume and less heating loss, realizing a dramatic improvement in operation costs.
The compact gc-2025 is the gas chromatograph for environmentally friendly, high value performance.
Eco-Friendly
Comparison of Power Consumption Per Analysis Cycle
The eco-friendly gc-2025 significantly cuts electric power costs compared to previous models to reduce the burden on the environment. Heat losses are significantly reduced through high-performance insulation and a smaller oven size to reduce the heating requirements. In addition, it incorporates an energy-saving heater to further cut power costs. Power consumption is reduced by 30% for programmed temperature analysis in comparison to other gc models. (The actual power consumption depends on the ambient temperature during analysis.)
Compact, All-in-One Design
In recent years, there has been an increasing demand for instruments with a smaller installation footprint to more effectively utilize laboratory space. The gc-2025 meets this requirement while incorporating all the functions required for normal capillary analysis.
Units for Normal Analysis Crowded into a Compact Space
The split/splitless injection unit (SPL), flame ionization detector (FID), and electronic flow controllers (AFC/APC) are installed as standard.
Compact Design Accepts Commercial Capillary ColumnsDespite the compact instrument design, the small-capacity oven accommodates the shape of commercially available capillary columns (column depth 9 cm max.).
Excellent Basic Performance
Incorporating design elements from the high-performance gc-2010 Plus capillary gas chromatograph, the gc-2025 achieves energy savings while offering the highest performance demanded for capillary analysis, delivering highly accurate analysis results and enhanced productivity.
High-Sensitivity Trace Analysis
The FID minimum detectable limit of 2 pgc/s offers high sensitivity for trace analysis.
Electronic Flow Controllers Achieve Excellent Operability and Reproducibility
The gc-2025 adopts the same well-proven electronic flow controllers (AFC/APC) for carrier gas and detector gas control that are used in the gc-2010 Plus. They offer highly accurate flow control to achieve excellent reproducibility.
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