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Electronic milk viscometer (analyzer of the number of somatic cells in milk) Expert Somatos is a novelty of 2020! Modern, designed taking into account all the wishes of our customers over the past 12 years! The most accurate and most reliable! It fully complies with GOST 23453-2014 (Raw milk. Methods for the determination of somatic cells. Section 6: Method for determining the number of somatic cells using a viscometer) as amended on 01.01.2016, including the length and diameter of the capillary! The analyzer is included in the state register of the Russian Federation as a measuring instrument! Exclusive benefits: • version with one or two flasks, which allows up to 60 measurements per hour • optionally equipped with an integrated or external printer • thanks to the new verification method developed from scratch, it can be trusted in any standardization and metrology center As a rule, it is used: • Dairy farms — for the timely prevention and treatment of mastitis in cows, which ensures stable supplies of high-grade milk (accordingly increases the cost of products). • Veterinary laboratories, SBBS, points for receiving farm milk from the population to determine the grade and calculate the cost of raw milk. • In the laboratories of milk processing enterprises to control incoming raw milk.

The MF-23IM flaw detection magnetometer allows you to determine the compliance of the ratio of the tangential and normal components of the magnetic field strength during magnetic particle testing using both the applied field method (AFM) and the remanent magnetization method (RMM) in accordance with the requirements of current regulatory documentation. The MF-23IM flaw detection magnetometer meets the requirements in the field of non-destructive testing for the main industries: nuclear, energy, oil and gas complex, general and special engineering, railway transport, aerospace industry, elevator and crane facilities.

The flaw detection magnetometer is included in the State Register of Measuring Instruments (GRSI) under No. 20106-00. The magnetometer (milliteslameter) is also included in the register of measuring instruments, testing equipment and measurement methods used at JSC Russian Railways. The flaw detection magnetometer MF-23IM from the manufacturer is used to measure the parameters of constant, variable (industrial frequency) and pulsed magnetic fields when testing ferromagnetic products using the magnetic particle method, as well as to control the level of industrial interference. Specifications.
Magnetic field induction (strength) measurement range: - constant and variable (amplitude and average values) 0.5…1000 mT (4…8000 A/cm) - pulsed (amplitude value) 2…1000 mT (18…8000 A/cm) Indication of measurement results digital or digital + graphic Indicator liquid crystal display Power supply from 1 PP3 battery Current consumption, mA, no more than 15 Memory capacity for storing results 4080 Communication with a computer via infrared channel Dimensions of the electronic unit, mm, no more than 120x60x25 Weight of the electronic unit with battery, g 150

The minimum dimensions of the Hall transducer for the MF-23IM magnetometer make it possible to measure the induction and magnetic field strength in grooves, grooves, corner transitions, i.e. in those areas of the controlled product that are stress concentrators and the most dangerous from the point of view of crack formation; · Measurement of pulsed magnetizing field with pulse duration from 0.5 ms; · Small measurement error (see technical specifications table) · Compact size and low power consumption;

· The magnetometer has 2 modes for displaying measurement results – digital and graphic). The MF-23IM magnetometer in graphical display mode allows you to detect a demagnetizing pulse by displaying its shape and amplitude on a graphic display, as a result of which changes can be made to the magnetization circuit in a timely manner. · The software of the MF-23IM magnetometer allows you to flexibly configure not only the response thresholds, but also the time base, which allows you to tune out false indications caused by reverse emissions of the magnetic field or electromagnetic interference from operating power equipment (magnetizing devices or magnetic particle flaw detectors).

· Determination of the effective magnetization region, within which the tangential component of the magnetic field strength is sufficient for magnetic particle testing, and the ratio of the normal and tangential components of the magnetic field strength is less than or equal to 3. · Checking the mode of magnetization/demagnetization of test objects for compliance with the methodology/technological instructions for magnetic particle testing for a given object.

BASIC SET: Electronic unit Converter 1 Converter 2 Caliber PP3 battery CD with program Case Flaw detection magnetometer MF-23IM. Passport

characteristics The AK-1000 is recommended for use with OCTAVE-101A, OCTAVE-101AM, OCTAVE-110A, OCTAVE-110A-ECO, OCTAVE-121, OCTAPHONE-110, OCTAVE-201, ECOPHYSICS-110A sound meters. The AK-1000 can be used for calibration of acoustic measuring paths with VMK-205, MK-265, MR-201, M-201, MK-233 microphones, and other ½-inch microphones. technical specifications Reproducible ultrasound, dB (rel. 20 µPa): 94 and 114 The limits of the permissible basic error of the reproducible ultrasound, dB: ± 0.25 Limits of the permissible additional error of the ultrasound caused by a change in ambient temperature in the operating temperature range, dB: ± 0.08 Frequency of the reproduced sound pressure, Hz: 1000 Limits of the permissible basic relative error of reproduction of the sound pressure frequency, %: ± 0.7 Limits of the permissible additional relative error of the sound pressure frequency caused by a change in ambient temperature in the operating temperature range, %: ± 0.07 Coefficient of nonlinear distortion, %, not more than: 2.5 Weight (with batteries), kg, no more than: 0.250 Overall dimensions (length×diameter), mm, no more: 158×35 Operating conditions: - ambient temperature, ° C: from minus 10 to 50 - relative humidity (at 40 ° C), %, not more than: 90 - atmospheric pressure, kPa: from 65 to 108

The mill provides grinding of grain crops according to the current standards regulating methods of determining their quality. The principle of operation: grain is fed into the mill dispenser, where an air-grain mixture is formed, which enters the grinding chamber. The crushed product is separated from the air in the cyclone and collected in a special removable container. After the grain supply is stopped, the air flow ensures self-cleaning of the dispenser and the grinding chamber of the mill. application It is used in the preparation of samples to determine the quantity and quality of gluten, the "drop number" and other indicators of the quality of crops by infrared spectroscopy and other laboratory analysis methods, which require a high degree of grinding of samples. GENERAL CHARACTERISTICS • High degree of grinding The mill is equipped with a sieve with round holes with a diameter of 0.8 mm*, which makes it possible to obtain a finely dispersed product with a stable particle size during grinding. *on a separate order, it is possible to complete a sieve with holes with a diameter of 1.0 mm • Quick and easy cleaning The ledges and holes in which the ground sample can be collected are minimized. • Low noise The optimized design of the mill body and the door of the grinding chamber with additional noise insulation ensure comfortable work of the staff during the working shift. • Large volume of the container for the ground sample The volume of the container for the ground sample is 1.4 liters. Thanks to this, it is possible to grind samples weighing up to 500 grams, which allows you to obtain more accurate test results and use the ground sample for simultaneous various analyses. • Dust-free grinding A fundamentally new design of the cyclone-container connection for the ground sample eliminates the possibility of dust entering the air. • Easy to operate The ergonomic handle of the retainer allows you to quickly and easily fix the container for the ground sample. technical specifications: Volume of the receiving funnel, 500 ml Permissible amount of ground product per hour, kg 5 The grinding time of the suspension is 50 gr., from 25-35 The maximum size of the crushed product, mm 12 The diameter of the sieve holes, mm 0.8; 1.0 The speed of rotation of the grinding hammers, rpm 16,800 Minimum mass of the milled product, g 10 The maximum mass of the milled product, 500 g Overall dimensions, mm 550 x 520 x 460 Weight, kg 50 Noise level, dB 70 Power supply Single-phase AC 220 V, 50 Hz Power, W 1100 The response time of the overload protection system, from 20

The Volga Triton pressure-free hybrid flow meter is designed to measure the volumetric flow of liquid in water ducts with a pressure-free and combined pressure-free flow mode. The submerged primary speed converter operates on the basis of the Doppler effect, emitting an ultrasonic signal towards the flow and receiving an echo reflected from particles in the flow with a frequency different from the frequency of the emitted signal. This frequency shift is called the "Doppler Shift" and it is proportional to the flow rate. A non-contact ultrasonic primary converter VBN-DG-01 or any other third-party liquid level converter with a unified current output of 4-20 mA can be used as a depth meter: radar, hydrostatic or ultrasonic. The volumetric flow rate is determined both by the "area-speed" method and by MI2220-2013, depending on hydraulic conditions. In non-contact (radar) mode, the Volga Triton flowmeter is designed to measure the volumetric flow rate of a liquid in a non-pressurized flow mode. The flow meter can be used as part of waste water metering units in non-pressure (gravity) sewage systems, open irrigation and reclamation channels, open or underground derivational non-pressure water pipelines of hydropower facilities, diverting supply and recirculation water pipelines of thermal power and other hydraulic structures with a non-pressure flow regime. The measurement technology is based on a non-contact radar method for measuring surface flow velocity and a non-contact ultrasonic/radar method for measuring water level. As a water level meter, both the proprietary ultrasonic level sensor BP-G-01 and third-party sensors connected via unified digital or analog interfaces, for example, VEGAPLUS, can be used. The pressure-free hybrid flow meter "Volga Triton" became the winner of the International Environmental Award EWA Award 2021 in the nomination Best technology. Secondary converter It is available in both stationary (~220 V) and portable versions with autonomous power supply. Primary converters VBN-DS-01 Primary speed converter for medium and large water pipelines VBN-DS-02 Combined primary speed and depth converter for medium and small aqueducts VBN-DS-03 is a combined low-profile primary speed and depth converter for small aqueducts. VBN-DG-01 - contactless ultrasonic primary transducer - depth meter Pipe sizes Du, mm: 350, 400, 500, 600, 700, 800, 900, 1000, 1200, 1400, 1600, up to 6000 mm

According to the requirements of the standards, the cooler is included in the list of equipment for determining humidity with pre-drying. Usually, grain samples after preliminary drying are cooled in the laboratory room to ambient temperature. However, with such cooling, the ambient temperature reaches only the surface layers of the samples, which affects the results of the analyses. The principle of operation of the cooler is based on blowing sample canopies in mesh buckets placed on a stand by a fan rotating at high speed. Advantages: Rapid cooling of samples. Stable moisture distribution. Allows you to significantly improve the accuracy of the results of determining humidity.

The principle of operation of the device UER-03: The principle of operation of the device is based on the creation of equal conditions for all exposed samples during biotesting. It is achieved by rotating the cassette with the test culture samples of crustaceans installed in it around the central axis. Since the sample cassette is oriented obliquely, when it rotates, there is an active gas exchange between the surrounding air and water samples. As the result, test organisms in test tubes are provided with sufficient oxygen concentration in the medium during the entire exposure period. The rotation speed of the cassette is chosen so as not to have a stress effect on the crustaceans. The device operates in continuous mode and does not require additional intervention in the process of exposing the crustacean culture. The required conditions for temperature and light irradiation can be provided only when the device is installed in the climatostat. Used in techniques: - Methodology for determining the toxicity of water extracts from soils, sewage sludge and waste, drinking, sewage and natural water by the mortality of the test object (Daphnia magna Straus). MON F 14.1:2:4.12-06 / 16.1:2.3.3.9-06 FR.1.31.2009.06641. - Methodology for determining the toxicity index of nanopowders, products made of nanomaterials, nanopoints, waste and sewage sludge containing nanoparticles, according to the mortality of the test organism Daphnia magna Straus. FR.1.39.2010.09102 And it can also be used in other suitable techniques.

This cultivator is an improved model of cultivators of the KVM type of earlier execution. Previously, KVM cultivators had a narrowly focused orientation to the Grigoriev Yu.S. methodology. 14.1:2:3:4.10-04 / 16.1:2:2.3:3.7-04; FR.1.31.2009.06642 (biotest on the reaction of a thermophilic strain of chlorella algae, test function - cell growth in relation to control. the duration of the test is 22 hours, toxicity criteria: 20% suppression of growth. 30% - stimulation of growth in relation to control). The Europolitest company strives to provide Russian laboratories with the best equipment with extensive functionality. Today. we have released a new cultivator KVM-08 with touch control. It can still be used according to the above method (in the same mode - power from the 220V household network via the power supply) At the same time, this cultivator can be connected to the on-board network of climatostats (P2, B3 and B4). In this case, it can maintain the temperature control at the level of 20 gr. With (despite the fact that the climatostat will be configured to maintain 18 gr. S). That is, when connecting this cultivator with the on-board network of the climatostat, the cultivator allows you to work in a wider temperature range (20 - 32 gr. S) And when working from 220V - in the range (27 - 40 gr. S.) In such a way thus, this cultivator allows you to consistently carry out two techniques: 1). 14.1:2:3:4.10-04 / 16.1:2:2.3:3.7-04; FR.1.31.2009.06642 (when operating from 220 V without using a climatostat) 2). RD 52.24.905-2020 (when the cultivator is connected to the on-board network of climatostats (P2, B3 and B4) In addition, with new characteristics and functionality, this cultivator is a convenient research tool. In addition to the preset modes for biotests according to the two above methods, the cultivator has 3 three user modes for free programming by the operator Allows you to configure and "flash" individual parameters: - temperature control : any value from the range of 20 - 40 gr. C (take into account the restrictions for work from 220 or from the board. climatostat networks) - lumostating : the maximum value is 16,000 Lux, the cultivator allows you to adjust from 0 to 100 % - rotation speed of the drum with penicillin vials (24 pcs.) : 0 - 60 rpm - duration of exposure: 0 - 240 h (discreteness of 1 min) - sound notification of the end of the specified exposure time

Control methods: Impedance method (IM) and free oscillation method (MSC) Distinctive features: - A wide range of controlled materials: from steel to foam and structures with soft external and internal elements - Application of two complementary control methods - One-way access - Dry contact of the transducers with the controlled object - Visual representation of information - The ability to memorize and reproduce the setting modes, which excludes the use of control samples at the workplace Technical specifications: The minimum area of the detected defect, cm2: 1 The depth of detected defects in fiberglass, mm: up to 12...15 Light and sound signaling of defects Number of measurements per second: 15 Weight, kg: 1 Self-powered by batteries Continuous battery life, h: 8 Operating temperature range, °C: -10...40

The principle of operation of the electronic diaphanoscope YANTAR is to assess the vitreousness of the image obtained using a digital camera. The vitreous value is calculated using a software-implemented algorithm using special calibration equations. The analysis time is 1 minute. Automation of the vitreous assessment avoids the error associated with the subjective opinion of a specialist. The use of specially developed calibration standards based on optical filters for uniform adjustment of diaphanoscopes permits to coordinate the operation of two or more devices remotely. The interlaboratory error in determining the vitreousness on the devices included in the network does not exceed the standard. All the results of the determination of the vitreousness of wheat with the corresponding grain images are stored in the archive. If necessary, specialists can print the protocols of the current or any of the previous definitions. THE ALGORITHM OF OPERATION: 1. Pour the grains into the cassette and close the lid made of transparent glass. 2. Install the cassette in the diaphanoscope. 3. Launch the program. 4. Choose a product 5. Software processing of the digital image of grains in accordance with the selected product 6. Calculation of computer results. In 2023, a new national standard GOST R "Wheat. Determination of vitreousness by optical-computer method".

The principle of operation is based on measurement by filling the container for the measured product with 1 liter of grain and measuring the mass of this grain. PECULIARITIES: 1. Drop weight design no assembly required Thanks to a fundamentally new design of the purka, the determination of nature is carried out quickly. Significantly reduced analysis time. No special training of personnel is required to work on the MERA purka. 2. Stability and reproducibility of results. The stable and repeatable movement of the knives ensures the stability of the work of the purka and an accurate, stable, reproducible determination of the nature (± 1g at 10 measurements). 3. Quick and easy cleaning The convenient design of the device permits to clean it quickly and easily. Excess grain is removed into an empty container for the measured product by pressing the "RESET" button. After discarding the remaining grain, the purka is ready for the next measurement. The fundamentally new design of the MERA purka body and the automation of the analysis process allow you to quickly and easily get the result. WORK ALGORITHM: 1.Fill the hopper with grain. 2.Install the empty container for the measured product into the device. 3. Press the "START" button on the control panel. 4. Weigh a container filled with 1 liter of grain and calculate the result. 5. Reset the remaining grain by pressing the "RESET" button. METROLOGICAL CHARACTERISTICS: Indication error, g, no more than ±4.0 Variation of six dimensions, g, no more than 2.1 SPECIFICATIONS: Overall dimensions (L×W×H), mm, no more than 600×230×620 Weight, kg, no more than 48 Power consumption, V×A, no more than 100 Supply voltage with a frequency of 50±1 Hz, V 220 (+15...-20)%

The principle of operation of the mills is based on the grinding of the product, rotating at high speed with a knife in combination with a cyclic rotation of the grinding unit. In order to achieve uniform grinding and homogenization of the sample, the grinding unit must be tilted during grinding. The angle of inclination is set automatically according to the selected mode. FEATURES: 1. Programmable grinding modes The laboratory mill has two grinding modes: "Sunflower" - used for grinding oilseeds. "Grain. Feed" is used for grinding grain, leguminous crops, feed and raw materials for their production. Depending on the crushed product, the operator selects the desired mode of the grinding process. The installation of the grinding mode options is carried out using a specially developed program via a PC. It is possible to install an additional grinding mode using a PC. 2.Easy operation with information display. 3. Crushing of samples with a high fat content (up to 55%). 4. Sample preparation without heating. The special design of the grinding chamber (grinding is carried out in the upper bowl made of aluminum) and the use of special knives ensure rapid grinding and minimize heating of the sample, which eliminates moisture loss. According to the test results of FSUE "UNIIM", mills are recommended for sample preparation during the analysis to determine humidity. They are part of the installation of the measuring air-thermal ASESH-8 (RU. p.31.005.A No. 56847). 5. COOLING SYSTEM without forced water cooling. For continuous comfortable operation with the cooling system, the mill is equipped with two grinding cups. 6. Grinding of various types of samples. The presence of knives of various geometries and the possibility of their quick replacement when changing the crushed product, allows the mill to be used for grinding a wide range of agricultural products – from wheat grains to soybeans and sunflower seeds, according to specially developed algorithms. Knives are included in the delivery package of the mill: knife No. 2 – for grinding oilseeds and cereals; knife No. 4 – for grinding feed and raw materials for their production; knife No. 1 – designed for chopping soybeans.