Analyzer Fluorat 02-3M (fluorimeter)
FLUORAT®-02-3M is a simplified model of a filter fluorimeter designed to perform routine measurements of objects for which the spectral characteristics of photoluminescence have been previously established. Out of production. Modern model Fluorat 02-5M As a gift - free delivery in Moscow and some regions of Russia! Selection of light fluxes is carried out using specially selected light filters. A high-pressure pulsed xenon lamp is used as a light source, providing sufficient light fluxes over the entire spectral range of optical methods - from hard ultraviolet to the red limit of visible light. The main operating mode of the analyzer is a fluorimeter. The device can also work as a photometer or chemiluminometer. The cuvette compartment can accommodate 10x10 mm cuvettes for fluorimetry and 10x20, 10x40 mm for photometry. The analyzer operates on AC power or a 12 V battery. This allows it to be used as part of mobile laboratories. Measurement by fluorescence or absorption photometry methods is possible. Distinctive features: low detection limits; high selectivity; a wide range of defined indicators; reduction of analysis time and reagent consumption; saving calibrations in non-volatile memory; multifunctionality (works as a fluorometer, chemiluminometer, phosphorescence measurement device, photometer, nephelometer). Applications Environmental studies: express analysis of water from reservoirs and streams for the content of pollutants; screening surveys of water areas at risk of pollution by oil products; monitoring studies of the content of pollutants in water bodies; control of soil contamination with petroleum products and heavy metals. Sanitary studies: control of the content of toxic substances and compounds in drinking and waste waters; control of air pollution by aerosols and volatile substances (after transferring samples to the liquid phase). Geology: studies of hydrogeological processes using the “fluorescent mark” method. Technology: control of the content of residual quantities of petroleum products in liquid oxygen; control of the purity of technological solutions. Medicine: routine analyzes of biological media. Food industry: Control of food products for the content of vitamins B1, B2, C. TECHNICAL SPECIFICATIONS: Measurement time no more than 16 s Types of cuvettes used - K10, K20, K40 (K20 and K40 only for photometric analysis for samples, volume 3, 6.12 cm Volume of analyzed sample (in a standard K10 cuvette) up to 3 cm3 Limit of permissible value of absolute error when measuring the transmittance of samples in the range of 10-90% 0.02 The limit of permissible absolute error when measuring the mass concentration of phenol in water in the range of 0.01-25 mg/dm3 is calculated by the formula: (C-concentration) 0.004+0.10*C mg/dm Operating spectral range (excitation and transmission channel) 200-900 nm Operating spectral range (recording channel) 250-900 nm Ambient temperature 10-35 °C Average service life at least 5 years Mean time between failures not less than 1000 h Dimensions no more than 330x300x120 mm Weight no more than 8 kg Food 220 V Powered by an independent source 12 V Power consumption no more than 36 W Current frequency 50 Hz The Fluorat 02-3M analyzer allows you to solve the following problems: Determination of aluminum in water Determination of anionic surfactants (AS) in water Determination of the anti-caking agent lilamine in mineral fertilizers Determination of beryllium in water Determination of boron in water Determination of vanadium in water Determination of vitamin B1 (thiamine) and vitamin B2 (riboflavin) in food products, food raw materials and dietary supplements Determination of manganese in water Determination of copper in water Determination of copper in air Determination of mineral oils in gases and cryogenic products Determination of molybdenum in water Determination of water turbidity Determination of arsenic in water Determination of petroleum products in water Determination of petroleum products in soil Determination of nickel in water Determination of nitrite in water Determination of total iron in water Determination of total chromium and chromium (VI) in water Determination of tin in samples of natural, drinking and waste waters Determination of selenium in drinking water Determination of selenium in samples of food products and food raw materials, compound feeds and raw materials for its production Determination of hydrogen sulfide in air Determination of phenol in sources of air pollution Determination of phenols in water Determination of phenols in air Determination of fluorescein in water Determination of formaldehyde in water Determination of formaldehyde in air Determination of formaldehyde in sources of air pollution Determination of hydrogen fluoride in air Determination of chemical oxygen demand (COD) in water Determination of cyanide in water Determination of zinc in water Determination of zinc in air Determination of vitamin C in food products and food raw materials Determination of cationic surfactants (CSAS) in water Manba: https://www.nv-lab.ru/catalog_info.php?ID=1443