Introduction: After the sample extraction is completed, the collected liquid can be directly transferred to APNE-12 for nitrogen blowing and concentration, saving time, liberating manpower, greatly improving the efficiency of the experiment, and avoiding errors and losses caused by manual transfer. Significantly improve the efficiency of pre-treatment experiments. Features: 1. APLE is a perfect partner, with a special concentrator design, no sample transfer, time-saving and efficient. 2. The 12-channel design can be controlled individually or at the same time, and the pressure can be automatically adjusted to ensure the uniformity of the air pressure of each gas path. 3. The unique dry heating method avoids water vapor pollution. 4. The heating module is made of pure aviation aluminum material, supports multi-module replacement, and has a fast heating speed 5. Imported optical sensor is accurately fixed volume, 12 channels can monitor the end of the liquid level, without manual supervision. 6. The unique air needle angle and air purge method speed up the concentration rate, prevent solvent splashing, and save nitrogen at the same time. 7. There are three optional operating modes, constant volume, timing, and mixed modes, which can be freely selected. 8. Fully enclosed design, with its own exhaust, built-in hot air circulation control system, so that the heating uniformity is better. 9. The end point detection position is optional to meet the needs of different concentration end points. 10. End point prompt, the system automatically stops nitrogen purge and stops heating, saving resources. Application Requisition: Mainly suitable for the extraction of liquids in the analysis of organic pollutants in environmental samples, food, pharmaceuticals, and petrochemical industries concentrate. Environmental analysis: soil, sediment, solid waste, etc. Food safety: cereals, tea, meat, seafood, etc. Drug testing: health care, medicine, etc. Petrochemical industry: polymers, etc.
Introduction: After the sample extraction is completed, the collected liquid can be directly transferred to APNE-12 for nitrogen blowing and concentration, saving time, liberating manpower, greatly improving the efficiency of the experiment, and avoiding errors and losses caused by manual transfer. Significantly improve the efficiency of pre-treatment experiments.
