Development of a compact, cost effective, and energy efficient biofilm reactor for wastewater treatment and effluent reuse
The new CFIC® process was tested in parallel with the well-documented MBBR process.
Microalgae Growth For Nutrient Recovery From Sludge Liquor and Production of Renewable Bioenergy
Proof-of-concept has been demonstrated for a process that will utilize nutrients from sludge liquor, natural light, and CO2 from biogas to grow microalgae at wastewater treatment plants.
Utilisation of wastewater nutrients for microalgae growth for anaerobic co-digestion
The feasibility of growing microalgae in natural light using wastewater high in nutrients (N & P) for the production of more bioenergy was examined.
Impact of selective size distribution of influent suspended solids on downstream biological processes
Three lab-scale sequencing batch reactors (SBRs) were investigated to remove nitrogen from wastewater containing different particulate organic contents based on suspended solids (SS).
Sustainable wastewater treatment with the innovative CFIC® biofilm reactor process
This new process has been tested for municipal wastewater.
Increasing the sludge energy potential of wastewater treatment plants by introducing fine mesh sieves for primary treatment
The objective of this study was to compare some basic characteristics of sludge from fine mesh sieves (sieve sludge) with sludge from primary clarifiers.
Anaerobic co-digestion of microalgae Chlorella sp. and waste activated sludge
The study investigated the growth characteristics of environmental algal strain, Chlorella, in the modified Zarrouk medium and its anaerobic co-digestion with waste activated sludge (WAS).
A continuous nanofiltration + evaporation process for high strength rubber wastewater treatment and water reuse
In the rubber parts industry, the treatment of wastewater from the demolding process utilising polymeric agents, traditionally poses a challenge.
Effect of Selective Organic Fractions on Denitrification Rates Using Salsnes Filter as Primary Treatment
The purpose of this project was to investigate the effect of selective particle removal during primary treatment on downstream biological nutrient removal processes.
Biomass production and nutrient removal by Chlorella sp. as affected by sludge liquor concentration.
The use of microalgae for biomass production and nutrient removal from the reject water produced in the dewatering process of anaerobically digested sludge was investigated.