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The Kemtrak DCP007 UV process analyzer uses ultra-low power cold light at the exact wavelength required for the analysis, exposing the sample to thousands of times less energy than a traditional UV photometer. This is achieved from a state of the art digital photometer design using a modulated high performance UV LED light source with precision fiber optics. Industrial fiber optic measurement cells for chemical concentration, platinum cobalt, hazen, saybolt, ASTM, chlorine dioxide and ICUMSA color. -
The Kemtrak DCP007 is an easy to operate industrial fiber optic photometer designed to accurately measure the concentration and color of process samples. Measurements are real time and in-line. The Kemtrak DCP007 uses a long life high performance LED light source with robust industrial grade fiber optics to provide drift and noise-free measurement with very high precision. A proprietary dual wavelength four channel measurement technique and advanced digital electronics design allows deep absorbance measurement to 5 AU. A range of shorter optical pathlengths allow for deeper absorbance measurements. Automatic compensation for sample turbidity and/or fouling of the optical windows ensures trouble free operation. Maintenance free measurement cells with sapphire windows have no electronics or moving parts making the unit suitable for hazardous area use. -
The all new Chip DSC-sensor integrates all essential parts of DSC, furnace, sensor and electronics in a miniaturized housing. The chip-arrangement comprises the heater and temperature sensor in a chemically inert ceramic arrangement with metallic heater and temperature sensor. This arrangement allows superior reproducibility and due to the low mass outstanding temperature control and heating rates of up to 300°C/min. The integrated sensor is easily user exchangeable and available for a low cost. The integrated design of the chip-sensor delivers superior raw data, which enables a direct analysis without pre- or post-processing of heat flow data. -
The Differential Thermal Analysis DTA is the most common thermal analysis method due to its wide range of information provided. The Linseis high temperature DTA PT 1600 is designed to deliver highest calorimetric sensitivity, short time constants and a condensation free sample chamber. These features guarantee superior resolution and baseline stability over the entire instrument lifetime. Thus providing a indispensable tool for material development, R&D and quality control. All Linseis Differential Thermal Analyzers (DTA) comprise the advantages of latest technology, highest resolution and a robust easy to use instrument design. -
Dilatometry DIL is a technique in which a dimension of a substance under negligible load is measured (e.g. expansion measurement or shrinkage measurement) as a function of temperature while the substance is subjected to a controlled temperature program in a specified atmosphere. Linseis produces a wide range of Single-, Dual-, Differential-, Quattro-, Quenching-, Laser- and Optical Dilatometer in a temperature range from -180°C up to 2800°C and a resolution up to 0.3 nm. Thanks to our years of experience (est. 1953), Linseis offers Dilatometers with an unbeaten performance. -
The Smartchem 600 combines the latest technology in discrete analysis with an innovative and unique design that guarantees accurate and reproducible results. The Smartchem range is the first discrete analyzers to utilize washable cuvettes with an integrated wash and control station, which guarantee a lower running cost and reduced risk of contamination. In addition to automated analysis the Smartchem 600 offers automated system Quality Control. The Smartchem range is also the first discrete analyzers to utilize a patented, dedicated sample prep module for the determination of NOx by Cadmium reduction. Designed for multi-tasking and high throughput rates, the NOx module also provides automated cadmium regeneration. The instrument provides also a pH, Conductivity and Redox module. Fully automated, the Smartchem 600 is available with new user-friendly software designed for touch screen computer with the possibility of wireless control. Ease of use combined with minimal operating condition requirements make the Smartchem 600 the right choice for every cost-efficiency laboratory. -
The portable system is suitable for variable, discontinuous and continuous operation. The components built into the system can be used for standard applications. For special requirements please ask us for other solutions.
The heated sample line is to be mounted at the gas measuring inlet terminal inside the portable case. A ball-valve can be fitted to the inlet terminal of the portable system in order to calibrate analyser(s) with check gas.
The amount of flow is determined by a sample gas diaphragm pump. The sample gas pump AMP 11P is activated automatically by means of an excess temperature contact on the cooler.
Optional flow meters with integrated needle valve are available. The flow meters are built-in as the electronic controller and are visible from outside when the carrying case is closed. This unique microprocessor controlled Peltier cooler is a powerful designed dew point stabiliser. The dew point is set at 4°C but can be changed at any value between 1°C and 15°C. The gas cooler is equipped with an innovative heat exchanger system.
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Due to various acid dew points at various applications the probe is heated up to 180°C.
A filter element of 150mm is integrated, suitable for most applications up to 1g dust/m3. A significant advantage is that this filter is replaceable without dismounting the probe. With the filter element of 150mm length this probe is suitable for most applications up to 1g dust/m3; with the blow-back function dust loads of up to 10g/m3 can be handled.
Calibration gas can be injected directly into the probe through the calibration gas connection according to EN14181 (regulation for calibration of emission monitoring systems) that enables calibration gas feeding via the filter element of the gas sample probe. The use of the optional high-flow check valve type APP 200 is recommended.
The portable gas sample probe series APP is a perfect completion to the Ankersmid portable gas conditioning system series APS 303/313. Both devices can easily be connected together by the Ankersmid heated sample line type AHL205/025 with the incorporated innovative Quick-Lock System which guarantees a fast and reliable connection.
Using this heated line the probe's electrical power is then fed to the probe via the feed line integrated within the sample line. To avoid cooling-down and condensation of sample gas in the extraction area, the heated sample probe tube type AST 301 is available.
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The DSC PT 1000 was developed to provide a general purpose TM – DSC with a broad temperature range (-180 – 600°C) for all common applications. Furthermore emphasis was placed on an extremely stable baseline and high reproducibility. The design allows manual and automatic operation. The conception of the cell guarantees maximum mechanical and chemical resistance. The key part of every DSC is the sensor, so don’t make any compromise. Up to now it has been impossible to achieve highest resolution and sensitivity in one sensor. The revolutionary design of the HiperRes® Sensor line now enables just that. The Ceramic/Metal Sensor deliver outstanding resolution in combination with superior reproducibility. -
Differential Scanning Calorimetry (DSC) is the most common thermal analysis method due to its wide range of information provided. The LINSEIS high temperature DSC PT 1600 (HDSC/DTA) is designed to deliver highest calorimetric sensitivity, short time constants and a condensation free sample chamber. These features guarantee superior resolution and baseline stability over the entire instrument lifetime. This provides an indispensable tool for material development, R&D and quality control. The modular concept of the HDSC and DTA systems allows the use of different furnaces with a temperature range from -150°C up to 1750°C. The vacuum tight design enables quantitative enthalpy and Cp (Specific Heat) determination under the cleanest atmospheres and under vacuum of 10E-5mbar. The systems can be upgraded with an optional sample robot and coupled to a MS or FTIR. Measuring System: User friendly exchangeable measureing systems such as a DTA Sensor and two different DSC Sensors are available. Each DSC Sensor is available as type E, K, S, B for the DSC PT 1600. This allows the perfect chioce for any application, temperature or atmosphere. -
The Differential Thermal Analysis is the most common thermal analysis method due to its wide range of information provided. The Linseis high temperature DTA PT 1600 is designed to deliver highest calorimetric sensitivity, short time constants and a condensation free sample chamber. These features guarantee superior resolution and baseline stability over the entire instrument lifetime. Thus providing a indispensable tool for material development, R&D and quality control. All Linseis Differential Thermal Analyzers (DTA) comprise the advantages of latest technology, highest resolution and a robust easy to use instrument design. -
The Dustroid Pro is an Online Dust Monitoring System specially developed for dust levels for critical applications. Dustroid Pro operates on the Laser Scattering Working Principle. Dustroid comes with a heated inlet for dehumidification of air-sample for improved accuracy and stability. The heated inlet reduces dehumidifies the air sample by reducing humidity up to 60%, which makes it an ideal solution for dust monitoring in Humid places. Hence, Dustroid pro is the most reliable dust monitor, its design helps in effective dust level monitoring at critical applications such as Construction dust monitoring, Mining dust monitoring, Quarrying dust monitoring, Thermal Power Plant Dust Monitoring, Cement Factory dust monitoring. Monitoring around heavy dust-laden activities is very important as they have a direct impact on the surrounding areas and the employees working on the premises. Therefore, through efficient dust monitoring, timely steps can be taken to activate dust suppression activities. With an increase of smart dust mitigation systems, they can be automated using the accurate particulate matter data derived from the Dustroid Pro. Dustroid Pro measures all the PM parameters like PM1, PM2.5, PM10, PM100, Temperature and Humidity. The Dustroid Pro is technologically equipped to offer higher accuracy with a heated inlet for humidity correction for Particulate monitoring, Auto device firmware updates, an Anti-static inlet to avoid loss of particulate during sampling and remote calibration capabilities. Our intelligent optical particle counter can transmit data through various data communication modules such as GSM, WiFi, LORA, etc. The data is transmitted to the Oizom cloud in near real-time. Additionally, it has an inbuilt memory backup to ensure no data loss in case of network failure. So, the collected data can be visualized on the Oizom IoT Terminal in the form of real-time dashboards, automated reports, and smart alerts. The data is also accessible through Rest APIs for setting triggers and alerts to automate dust mitigation systems like fogging cannons, misting systems and ambient dust purification systems. -
The Dustroid Smart is an air particulate monitoring device specially developed to monitor ambient dust particles. The Dustroid Smart is a compact and connected optical particle counter which offers near real-time particulate matter count. The easy to install and the requirement for minimal space for deployment make it a scalable solution to create a dense network of data points. The Smart version is specially designed for creating a quality sensor network for crucial applications like Smart Cities, Roadside monitoring, Tunnel monitoring. Globally 25% of urban ambient air pollution is from particulate matter. Particulate matter is one of the most harmful pollutants. It causes several health hazards such as non-fatal heart attacks, irregular heartbeat, aggravated asthma, decreased lung function. Monitoring in tunnels enable ventilation fans automation, roadside monitoring enables the city authorities to identify the impact of vehicular emissions on the total PM generation of the city. Other activities like coal and charcoal burning also play a major role in increased levels of particulate matter. In order to mitigate the dust levels, it is necessary to identify the exact sources of dust pollution and apply necessary mitigation strategies. Dustroid Smart – dust monitoring device measures all the PM parameters like PM1, PM2.5, PM10, PM100, Temperature, and Humidity. The Dustroid Smart is technologically equipped to offer higher accuracy with features, humidity correction for Particulate monitoring, Auto device firmware updates, Anti-static inlet to avoid loss of particulate during sampling, and remote calibration capabilities Our intelligent optical particle counter can transmit data through various data communication modules such as GSM, WiFi, LORA, etc. The data is transmitted to the Oizom cloud in near real-time. Additionally, it has an inbuilt memory backup to ensure no data loss in case of network failure. The collected data can be visualized on the Oizom IoT Terminal in the form of real-time dashboards, automated reports, and smart alerts. The data can also be accessible through Rest APIs for integration into 3rd party software and automated dust suppression. -
Dynamic Vapor Sorption (DVS) is a gravimetric technique that measures how quickly and how much of a solvent is absorbed by a sample. It does this by varying the vapor concentration surrounding the sample and measuring the change in mass loss or uptake. Water vapor is most commonly used, but it is also possible to use a wide range of organic solvents. The DVS instrument rapidly measures uptake and loss of moisture or organic vapours by flowing a carrier gas at a specified relative humidity over a sample (which can weigh between 1 mg and 4 g) suspended from the weighing mechanism of an ultra-sensitive recording microbalance. This particular microbalance is used as it is capable of measuring changes in sample mass lower than 0.1ppm , providing unrivalled long-term stability required for accurate measurements of vapour sorption, which may take from minutes to days to complete depending upon the sample size and material. A big factor of sorption behaviour is the need to establish rapid sorption. So the DVS instrument allows sorption behaviour to be accurately determined on very small sample sizes (typically 10 mg) to have a fast expiriment. -
We have a whide variaty of sensors, loggers/recorders for temperature and humidty. Digital temperature data logger with display Escort MINI is a self-sufficient data logger that measures temperature. To start logging, a brief pressure on start button is enough. A large LCD display provides log information and alarm status. Escort MINI’s enclosure is made of ABS plastic and has an optional internal or external probe. The internal memory logs up to 1868 readings, with a sample rate from 1 up to 255 minutes. iLog is a self-powered temperature data logger. An excelent resolution of 0,1ºC along with a high accuracy of ±0,3ºC gives the iLog the capability to detect and to log the smallest variations of temperature. A large LCD display and external indicators provide log information and alarm status. The internal memory logs up to 32000 readings, with a sample rate from 1 second up to 10 days. -
The Kemtrak EX-D3 hazardous area enclosure allows the use of a Kemtrak 007 series process analyzer in potentially explosive atmospheres. The primary function of an Ex d enclosure is to prevent the propagation of an internal explosion to the surrounding explosive atmosphere and protecting the internal components from the environment, humidity, dirt, dust or water. A window on the front of the enclosure is used to view the analyzer display and status lamps while four external push-buttons provide complete operation control of the instrument. All Kemtrak products use fiber optics and maintenance free measurement cells with no electronics or moving parts to perform the measurement. Fiber optics are ideally suited for use in explosive environments as they only allow transmission of ultra-low power cold light.
