Applications available in Kazakhstan

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    Chromatography laboratory instrumentation for environmental analysis

    Determining pollutants in environmental and food matrices requires efficient sample preparation and analytics. BUCHI provide a wide selection of solutions for reliable, flexible and safe sample processing procedures in the laboratory work flow for environmental analysis.

    By BÜCHI Labortechnik AG based in Postfach, SWITZERLAND.

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    Chromatography laboratory instrumentation for pharmaceutical

    Drug discovery and development for pharmaceutical industries require safe, efficient and compliant sample preparations and analytics. BUCHI offers a variety of reliable solutions for regulated pharmaceutical laboratories.

    By BÜCHI Labortechnik AG based in Postfach, SWITZERLAND.

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    Chromatography laboratory instrumentation for chemical

    Cost effective, safe and sustainable processes play a key role in the chemical industry. To cover those needs BUCHI offers a variety of reliable solutions for R&D, quality control and production.

    By BÜCHI Labortechnik AG based in Postfach, SWITZERLAND.

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    Reverse Osmosis Water Testing

    Osmosis is the phenomenon of lower dissolved solids in water passing through a semi-permeable membrane into higher dissolved solids water until a near equilibrium is reached. Reverse Osmosis (RO) is a membrane process of purification which removes most of the the total dissolved solids (TDS) in water by reversing the natural process of osmosis. Pressure is applied to a TDS-concentrated solution against a semi-permeable membrane, causing pure water to diffuse through the membrane. RO has become an important process for a wide variety of applications including: medical, laboratory, desalination, industrial wastewater, Deionized (Dl) pretreatment, and drinking water.

    By Myron L Company based in Carlsbad, CALIFORNIA (USA).

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    Industrial evaporation of the chemical industry

    In the chemical industry a wide range of applications can be performed with an industrial evaporator

    By BÜCHI Labortechnik AG based in Postfach, SWITZERLAND.

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    Parallel evaporation in environmental consultancy

    For a fast and effcient sample concentration in order to monitor de pollution of the environment

    By BÜCHI Labortechnik AG based in Postfach, SWITZERLAND.

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    Laboratory evaporation for pharmaceutical

    BUCHI offers a variety of reliable solutions for regulated pharmaceutical laboratories

    By BÜCHI Labortechnik AG based in Postfach, SWITZERLAND.

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    Coating and Laminating

    MEGTEC’s experience and application know-how are at your command for tough drying and web handling applications such as slow-drying coatings and materials or thin film coating and laminating. Dryers can be equipped with a wide variety of nozzle configurations ranging from simple slot nozzles to sophisticated Coanda-style air bars and patented air foil systems. A full range of heat sources are available including steam, direct and indirect gas-fired, thermal oil, electric, hot water and IR. In addition, the air handling systems can be integrated into the dryer enclosure or stand-alone for remote installation. When the process requires pollution control systems for solvent-based applications, MEGTEC also offers regenerative thermal oxidizers, solvent recovery, distillation and purification systems. MEGTEC also offers waste heat recovery packages to “close the energy loop” between pollution controls and the process, in order to reduce production costs and increase customer profits

    By Babcock & Wilcox MEGTEC LLC based in De Pere, WISCONSIN (USA).

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    Wastewater Treatment

    Many industrial and pharmaceutical processes generate wastewater with volatile contaminants that increase the COD and BOD to a point where discharging to municipal wastewater is very costly or not an option. These contaminants can be removed from the water by distillation, substantially lowering the disposal cost, and, in many cases, the removed components can be further purified and reused in the process. MEGTEC offers the following solutions to remove the volatile contaminants and make wastewater suitable for discharge to most municipal wastewater treatment plants: Stripping columns using direct steam or a reboiler Distillation columns using indirect steam heat sources Our technologies have been applied to a range of processes including wastewater treatment from industries such as Pharmaceutical, Semiconductor, Chemical and Petrochemical.

    By Babcock & Wilcox MEGTEC LLC based in De Pere, WISCONSIN (USA).

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    Television recycling

    By ATN Engineering B.V. based in Stadskanaal, NETHERLANDS.

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    A New GC-MS Method for Mycotoxin Analysis Using 13C-marked Mycotoxin Derivatives

    Andreas Breidbach [1] and Wolfgang Brodacz [2,3,4] developed a new GC-MS method using fully 13C isotopelabelled analogues of T-2 toxin and HT-2 toxin that allows for the detection of these toxins at concentrations as low as 2–5 ppb.

    By Merck KGaA, Darmstadt, Germany based in Darmstadt, GERMANY.

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    Determination of Additives in Beverages using Ascentis Express Columns

    Beverages, such as sodas and energy drinks, can include a number of polar ingredients, which are easily soluble in the water matrix of the drinks. These ingredients include sweeteners (sugars and sugar substitutes), caffeine, vitamin supplements, amino acids, organic acids, and plant extracts. Because the analytes are already in solution, there is no need for extensive sample preparation. Dilution followed by direct injection into an HPLC is typically suitable. In this article we present two beverage applications using Ascentis Express HPLC columns. Ascentis Express columns offer faster HPLC on any system. One benefit is their ability to produce the resolution, efficiency, and speed on conventional HPLC systems that is associated with the use of sub-2 micron columns on a UHPLC system, without generating high backpressure. Column chemistries (RP-Amide and HILIC) were selected for this article based on their enhanced performance with polar compounds in comparison to C18.

    By Merck KGaA, Darmstadt, Germany based in Darmstadt, GERMANY.

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    Analysis of Herbicides in Drinking Water

    Herbicides are used throughout the world to combat the growth of unwanted plant life. These polar compounds are hydrophilic, so they may find their way into drinking water sources. While gas chromatography has historically been the preferred technique for analysis of herbicides in water samples, the use of LC-MS/MS for this application is gaining acceptance. This is due to the power of MS/MS to provide detailed identification of multiple analytes, but also in part due to the variety of HPLC stationary phases that are available. In particular, several HPLC phases are available that provide great retention and peak shapes for polar analytes, such as herbicides, even under mostly aqueous mobile phase conditions. The combination of these factors may possibly eliminate need for time-consuming sample preparation.

    By Merck KGaA, Darmstadt, Germany based in Darmstadt, GERMANY.

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    Formaldehyde and Acetaldehyde Determination in Air Using Fully Automated On-Line Desorption and Analysis of DNPH Cartridges

    Airborne aldehydes and ketones are collected by passing air through a cartridge containing 2,4-dinitrophenylhydrazine (DNPH). Carbonyl compounds react with the DNPH to form hydrazones, which are immobilized on the cartridge. These compounds can be easily eluted from the cartridge with acetonitrile and analyzed by HPLC with UV detection. Traditionally, this analysis including the workup contains a series of manual steps, which can become time-consuming and could incur experimental error. Automating the extraction of LpDNPH S10 cartridges and putting it in-line with the HPLC analysis will significantly reduce manual labor using this technique and this will improve reproducibility of the method by reducing potential experimental errors by the operator. The automation and unattended operation of the method leads to high throughput for determining airborne formaldehyde and acetaldehyde.

    By Merck KGaA, Darmstadt, Germany based in Darmstadt, GERMANY.

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    Increased Pigment Removal with Analysis of Pesticides in Oranges

    An application was developed to demonstrate increased pigment removal for the analysis of pesticides, using Supel™ QuE Z-Sep/C18 QuEChERS and an Ascentis® Express C18 HPLC Column. The improved cleanup can decrease column and instrument fouling, leading to extended LC column lifetime and reduced instrument downtime.

    By Merck KGaA, Darmstadt, Germany based in Darmstadt, GERMANY.

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    Water monitoring technology for flow & discharge

    Measuring water flow and discharge to determine the amount of water flowing through an open channel is critical for predicting water availability and flood events, allocating watering, and more.

    By The OTT Hydromet Group based in Kempten, GERMANY.

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    Water monitoring technology for nutrient monitoring

    Continuous monitoring of nutrient levels provides crucial information about daily, seasonal and event based changes in water quality conditions, and can be a strong indicator on the overall health of the water body.  In recent years, monitoring of nutrients has grown in importance as it has come to the forefront in regulatory compliance of water quality in many regions.

    By The OTT Hydromet Group based in Kempten, GERMANY.

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    Eliminating the Environmental foot print for Offshore and On shore oil rigs

    OSE II ELIMINATING THE ENVIRONMENTAL FOOT PRINT WHILE REDUCING COSTS ASSOCIATED WITH DRILLING MUD, DRILLING MUD CLEAN UP, RIG WASHING, RIG OPERATIONS AND EMERGENCY OIL SPILL RESPONSE FROM OIL RIGS

    By OSEI - Oil Spill Eater International, Corp based in Dallas, TEXAS (USA).

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    Hazardous waste treatment solutions for oil and gas industry

    There are a wide amount of applications for our VacuDry® process within the oil and gas industry. A large variety of wastes and by-products that are generated in the oil & gas production chain can be treated effectively and sustainably. In past decades, numerous thermal desorption processes have been implemented worldwide, using a variety of heating chamber designs to separate hydrocarbons from the mineral solids. Such standard TDUs work under atmospheric pressure which can lead to safety risks, high energy consumption, larger emissions and limited flexibility regarding altering feed materials. Due to its unique design, the complications outlined above are avoided throughout the VacuDry® process. When it comes to treating standard oily wastes, mercury-containing waste streams, NORM, and especially for the recovery of highly valuable drilling fluids from drill cuttings; our vacuum thermal desorption process (i.e. vacuum distillation) is economically unbeatable.

    By econ industries services GmbH based in Starnberg, GERMANY.

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    NORM Waste Plants for Oil and Gas Industry

    Natural Occurring Radioactive Material consists of materials enriched with radioactive elements found in the environment. They are usually brought to the surface by oil and gas exploration or mining. NORM wastes can be treated in a VacuDry® unit in order to prepare it for a safe sub earth disposal. Find more information, important key facts and the benefits of VacuDry® NORM waste plants on http://www.econindustries.com/applications/norm-waste

    By econ industries services GmbH based in Starnberg, GERMANY.

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