Continuous Sand Filtration
We help waterboards, drinking water companies and industries with the production of drinking water and process water, water reuse and the purification of waste water.
Continuous media filtration
Easy to operate
Continuous operation without any downtime for backwashing due to the fully hydraulic media washing integrated inside the filter.
Low manpower requirements to operate the filters with reliable and stable performances.
Simultaneous physical- chemical and biological treatment, e.g. for N and P removal.
Combined adsorption, separation and biodegradation.
Applications in water and waste water, cooling water, ground water and surface water.
Modular system set-up in a wide range of capacities.
High uptimes and low installed power requirements.
Absence of backwash pumps, backwash water storage facilities.
Reliable and cost effective in day-to-day operations, low life cycle asset costs.
How it works
Moving bed (bio) filtration is a mode of granular media filtration based upon uninterrupted filter operation. Sieved filter sand is typically used as the appropriate filter material.
Cleaning is continuous while the filter is in operation and hence a 24/7 availability of the process is guaranteed. Sand is lifted from the bottom of the filter tank into the washer assembly at the top, using an airlift. In the washer sand is cleaned by washing out the impurities. Clean sand is falling back on top of the filter bed, while a highly concentrated wash water flow is discharged.
Filters are designed in modular systems and may be applied in a wide capacity range. Standard filters are available from a capacity as small as 4 m3/h up to capacities of 4,000 3/h. Single stand-alone units are typically constructed in stainless steel or glass fibre reinforced plastic. For large filter plant capacities, typically from 1,000 3/h onwards, rectangular and circular concrete units are applied.
Filter plants are configured, based on similar modular units, to accommodate the operating window. And to meet the required consent levels. Dedicated process design tools are used to determine the most economic lay-out.
Biological denitrification is used to reduce total nitrogen in both water and waste water. Nitrate-nitrogen is effectively converted into nitrogen gas by heterotrophic biomass maintained in the filter under anoxic conditions. Both in water and waste water applications nitrate-nitrogen can be reduced to levels < 1 ppm.
In nitrifying continuous filters nitrifying biomass is cultivated under aerobic conditions. A dedicated and targeted fine bubble aeration inside the biofilter promotes the growth of autotrophic nitrifying biomass on top of the sand grains. The biofilm proves highly effective to convert ammonia-nitrogen into nitrate-nitrogen over the full filter bed height.
Both soluble and particular phosphorus is effectively removed physically and chemically. Depending on the speciation of the phosphorus present a coagulant is dosed for flocculation of the soluble phosphorus. The continuous filter is capable of removing solids and phosphorus to levels as low as 3 ppm solids and 0.1 ppm phosphorus. Hence the most stringent effluent criteria may be met.
Suspended solids removal
Continuous filters are highly efficient in removing high levels of both organic and inorganic solids, due to the continuous sand washing.
This feature makes it possible to apply the technology for high solids loads, such as direct filtration of surface water, primary and secondary filtration of waste water.
Wash water treatment
Backwash water generated in conventional rapid gravity filters, used in drinking and process water production is effectively treated in a compact wash water treatment scheme. A highly effective part of this scheme is continuous filtration, handling high solids concentrations and producing water, fit for reuse in the main process.
Efficient treatment of groundwater is focusing upon a combination of aeration / degasification and continuous filtration. Groundwater, containing iron, manganese and ammonia is effectively treated. Removal of these components by simultaneous physical-chemical and biological processes to meet drinking water standards.
Bypass filtration in cooling water circuits
Bypass filtration in open recirculating cooling water systems proves to be very effective in optimizing operations and increasing sustainability.
Implementing bypass continuous filtration leads to a reduction in conditioning chemicals dosed, a higher energy transfer rate in the heat exchangers and a higher anticipated economic lifetime of the heat exchangers.
Surface water treatment
Direct continuous filtration is widely applied to treat surface water in order to remove turbidity, solids or colour. Direct filtration, with inline feed dosing of an appropriate coagulant is applied. Flocculation and floc removal is taking place within the filter bed. As a result, a stable and high quality filtrate is produced.
We are happy to collaborate with our clients to meet their objectives.
And we highly appreciate their feedback!
We are operating a big tertiary filter plant consisting of 24 filter cells to remove nitrogen and phosphorus prior to effluent discharge. The plant is in operation since 2009, and in the beginning we tried to monitor the filters by using an ultrasonic sand circulation measurement tool. This did not work. After Brightwork implemented Sand-Cycle in 2016, this proved to be very useful in our day-to-day operations. We have managed to operate the filters in the most optimal way and we are very happy to use such a powerful tool.
Plant operator Wetterskip Fryslân WwTW Franeker
Both our waste water treatment plants Wijlre and Simpelveld use tertiary continuous sand filters to remove solids, nitrogen and phosphorus. In this way we manage to discharge good quality effluent onto our surface water bodies. With Brightwork’s Sand-Cycle tool, implemented at both works we are better in control of our tertiary sand filters, enabling us to react pro-actively in case of any issues. It definitely contributes to a smooth day-to-day operation, while discharging good quality effluent.
WwTWs Wijlre and Simpelveld
Would you like some further reading?
Please feel free to download this whitepaper. It is about the tertiary removal of phosphorus to reuse effluent from a waste water treatment plant. It highlights the set-up, objectives and long-term performance of the continuous filter plant.