The mercury cell process is a formerly widely-used production technique for the production of chlorine and caustic soda. The liquid metal, mercury, acts as cathode (negative pole) in this process. In the past, the loss of mercury during the process (to air, soil and water) led to serious health and environmental problems. Therefore, most European chlorine producers have decided to phase out the mercury cell process by 2020. Nevertheless, even today, almost 6000 tons of mercury is used per year for chlorine...
Due to toxic, adhesive, sticky or fatty characteristics water management at chemical plants is very challenging. Using LAR`s application-specific technology you can improve your water management efficiency by reliable on-line measurements.
Process control and emissions monitoring in a chemical plant is a challenge due to corrosive gases, high dust load, and high temperatures. To use an extractive system in this environment will demand a lot of maintenance.
Alfa Chemistry offers an extensive catalog of building blocks, reagents, catalysts, reference materials, and research chemicals. https://www.alfa-chemistry.com/2-hydroxy-n-n-n-trimethylethanaminium-perchlorate-item-296011.htm
Fertilizer Plant Clean‐up and General Maintenance. Vac‐Tron vacuum excavation models are currently being used at various fertilizer plants for general clean‐up and removal of muriatic acid waste. It is highly recommended that the inside of the debris tank and filter housing be protected with a coating that will resist the corrosive effects of the acid. Proper clean up is a must.
The effluents that accrue in the cleaning process of silo vehicles and containers for transportation of raw materials for the chemical industry, are highly complex and constantly changing in the composition of wastewater. Flocculation as the prior art of treatment for chemical waste water can not remove many of the completely dissolved invisible substances. Thus, the residual stresses are evident despite high claritv of the `Treated effluent` is often well above the levels witch are applicable for wastewater in...
Superoxide dismutase (SOD) catalyzes the dismutation of superoxide radicals to hydrogen peroxide and molecular oxygen. https://www.creative-enzymes.com/product/Native-Bacillus-Stearothermophilus-Superoxide-Dismutase_16401.html
Ethylene, styrene, ammonia, methanol, and other chemical producers require sustainable utility treatment results. Our technology focus is on reducing corrosion and fouling, while meeting compliance, safety regulations, and alternative water resource demands.
Bilfinger Water Technologies produces and installs filtration plants in chemical – pharmaceutical fields since the early 1970s. The filtration systems developed by Bilfinger Water Technologies during this 30 year-experience are particularly appreciated in solid liquid separation processes and dewatering of treating effluents. These separation processes play a very important role in the chemical pharmaceutical field, being essential elements of many production processes.
The cosmetics industry accrues many kinds of wastewater. The challenge for wastewater treatment is that product lots are often changing, thus changing the composition of the wastewater. Switching to a new product lot in particular, produces large amounts of wastewater that are contaminated by surfactants, dye, oils and emulsions and high COD concentrations. In addition, wastewaters foam excessively at times.
ANDRITZ gives you access to a comprehensive range of technologies for solid/liquid separation, drying, and automation solutions for chemical processing applications. The systems are specifically designed to achieve product purity and plant safety in the most demanding applications. The chemical and petrochemical industries require durable, safe, and efficient technology solutions which place unique demands on suppliers. Whether the application is for chemicals, petrochemicals, pharmaceuticals, coating pigments,...
Safety and cost are two of the biggest concerns in industry today. At Inspectahire we realise this and aim to minimise the effect of them both. We do this by using the latest inspection technology which can either be operated remotely or if the requirements allow, by man.
Alfa Chemistry offers an extensive catalog of building blocks, reagents, catalysts, reference materials, and research chemicals. https://www.alfa-chemistry.com/1-2-hydroxylethyl-3-methylimidazolium-perchlorate-item-296018.htm
Alfa Chemistry offers an extensive catalog of building blocks, reagents, catalysts, reference materials, and research chemicals. https://www.alfa-chemistry.com/1-2-hydroxylethyl-2-3-dimethylimidazolium-perchlorate-item-296026.htm
Progressing cavity pumps are an ideal solution for the chemical industry. These pumps can move highly abrasive, higly viscous, and toxic materials with minimal wear compared to other positive displacement pumps. Progressing cavity pumps are also an excellent choice when pumping shear sensitive materials since they are one of the lowest shearing pumps available on the market. Many polymer manufacturers use these pumps to move their products for this very reason. Moyno offers a variety of progressing cavity and...
Chemical plants that produce high quantities of phenols (plastics, pesticides and pharmaceutical industries) and other aromatic organic compounds are excellent candidates for wastewater characterization via spectral analysis. Chemicals that contain conjugated double bonds absorb UV radiation remarkably well. The benefits include higher precision in process control as well as optimization of wastewater treatment.