Productos auxiliares

Genesys ofrece una gama de productos adicionales para membranas, que incluyen floculantes compatibles con membranas para la optimización del agua de alimentación, biocidas para la dosificación en línea y la desinfección fuera de línea. Además, también suministramos productos químicos especializados para la reducción de cloro y la protección contra la corrosión en las líneas de suministro de permeado.

Autopsia de membrana

Siempre recomendamos realizar un análisis exhaustivo de la membrana para asegurar la correcta identificación de los depósitos y diseñar un protocolo de limpieza personalizado.

Nuestros productos complementarios

Genesol 30

Genesol 30 is a fast acting, broad-spectrum biocide used for cleaning RO and NF membranes. It can be used both on and off-line to eliminate microbiological fouling.

Genesol 32

Genesol 32 is a broad spectrum biocide for use in cleaning RO and NF systems and can be used in pre-treatment systems for the prevention of biofouling in pumps, tanks and pipe-work.

Genefloc GPF

Genefloc GPF is a general-purpose flocculant for use in surface, well and process waters with medium to high Silt Density Index (SDI) values and does not foul membranes like conventional iron and aluminium based coagulants.

Genefloc PWF

Genefloc PWF is used to improve the performance of filtration equipment. It‘s a general purpose (low molecular weight) flocculant for use in surface, well and process waters of medium to high SDI.

Genesys RED

Genesys RED is a reducing agent for removing dissolved oxygen and residual chlorine from feed waters used in RO and NF systems with polyamide membranes where any residual chlorine can adversely affect membrane integrity.

Genetech CP

Genetech CP has been developed as a corrosion inhibitor for use with product water from RO systems as well as naturally soft waters.

Genefloc ABF

Genefloc ABF is designed specifically for use in feed waters susceptible to algae growth such as open reservoirs and ponds, and act as a combined biocide and flocculant, reducing the effects of colloids, bacteria and algae on membrane systems.

Open Cooling Water Systems

Open cooling systems directly expose process water to the atmosphere, typically through cooling towers. In these systems, warm water from industrial processes is pumped into the cooling tower, where it is sprayed or spread over fill media. As the water comes into contact with air, a portion evaporates, carrying away heat and cooling the remaining water. This cooled water is then recirculated back into the system to absorb more heat. While open systems are cost-effective and efficient, they require careful water treatment to prevent scaling, corrosion, and biological growth due to the direct exposure to air and potential contaminants.

Closed Cooling Water Systems

Closed cooling systems, on the other hand, isolate the process water from direct contact with the atmosphere. In these systems, the process water circulates within a sealed loop, passing through heat exchangers where heat is transferred to another fluid, such as air or water, which is then cooled through evaporation or other means. This design minimizes water loss and reduces the risk of contamination, scaling, and corrosion. Closed systems are particularly beneficial in environments where water quality is critical or where water conservation is a priority.

Ultrafiltration (UF)

UF membranes have smaller pores (0.001–0.1 microns) than MF, allowing them to remove smaller particles, including viruses, proteins, and colloids. UF is commonly used in applications where higher purity is needed, such as in dairy processing or pharmaceutical manufacturing. While it offers finer filtration than MF, it still allows many dissolved salts and small molecules to pass through.

Nanofiltration (NF) and Reverse Osmosis (RO)

NF membranes have even smaller pores (0.001–0.01 microns) and are effective at removing divalent ions like calcium and magnesium, making them useful for water softening and partial desalination. RO membranes have the smallest pores (<0.0001 microns) and can remove nearly all dissolved salts, organic molecules, and microorganisms, producing very pure water. However, RO requires higher operating pressures and more energy than MF or UF.

Our solution-oriented approach can keep your system operating at peak performance.