LT-5 fully automatic headspace sampler Introduction: The LT-5 fully automatic headspace sampler is designed for volatile compounds in liquid and solid samples. By using headspace injection, it can greatly reduce the tedious and time-consuming manual pre-treatment process for samples. So, it is widely used in residual solvent detection, petrochemicals, fine chemicals, food brewing, food packaging materials, environmental monitoring (rivers, lakes), sewage, forensic identification, detection of volatile organic compounds in samples such as drinking water, cosmetics, coatings, and paints. advantage: 1. Good universality: It can be directly connected to any domestic or foreign instrument, making it easy and simple to use. 2. Exquisite design: This instrument has undergone special and exquisite design, with a simple and elegant appearance. 3. Economic durability: The instrument components have undergone long-term testing and are stable and durable. 4. Low residual adsorption: The entire pipeline is made of inert materials and heated and insulated. Technical parameters: 1. Sample heating temperature control range: Room temperature~220 ℃ (set in increments of 1 ℃); 2. Temperature control range of valve injection system: Room temperature~200 ℃ (set in increments of 1 ℃); 3. Temperature control range of sample transfer tube: Room temperature~200 ℃ (set in increments of 1 ℃); 4. Temperature control accuracy:<± 0.1 ℃; 5. Headspace bottle workstation: 9 positions; 6. Headspace bottle specifications: Standard 10ml or 20ml (other specifications can be customized) 7. Repeatability: RSD<1.5 (ethanol, water); 8. Injection pressure range: 0-0.4Mpa (continuously adjustable); 9. Backblowing cleaning volume: 0-20ml/min (continuously adjustable);
Introduction: The LT-5 fully automatic headspace sampler is designed for volatile compounds in liquid and solid samples. By using headspace injection, it can greatly reduce the tedious and time-consuming manual pre-treatment process for samples. So, it is widely used in residual solvent detection, petrochemicals, fine chemicals, food brewing, food packaging materials, environmental monitoring (rivers, lakes), sewage, forensic identification, detection of volatile organic compounds in samples such as drinking water, cosmetics, coatings, and paints.
