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Nitrogen removal and sludge reduction in anoxic-aerobic sequencing batch reactor with alkaline-H2O2 disintegration

100%

Gürtekin E.

Ecological Chemistry and Engineering. S

2022

tom Vol. 29, nr 4

511--523

In this study, alkaline-H2O2 sludge disintegration was combined with anoxic-aerobic sequencing batch reactor (SBR). The carbon obtained by alkaline-H2O2 sludge disintegration was used in the denitrification process and sludge reduction was achieved in the SBR process. In the SBR process, a 9 % increase in nitrogen removal efficiency was achieved with the improvement in the denitrification process. A sludge reduction efficiency of 43 % was obtained in the SBR process with alkaline-H2O2 sludge disintegration. A synergistic effect was obtained in the combination of alkaline and H2O2 methods and the sludge reduction increased by 8 %. By combining sludge disintegration into the SBR process, it is possible to reduce the amount of sludge formed, which is an important environmental problem, and to provide carbon source for the denitrification process.

Soft water treatment efficiency

80%

Dziubek A. M. , Maćkiewicz J.

tom Vol. 33, nr 1

25-30

In Poland, soft water is carried by mountain rivers and streams, and is found in impoundment lakes located in mountainous regions. The low concentrations. of Ca and Mn compounds. in those waters should be attributed to the geological structure of the subsoil, which is poor in sedimentary rocks. Until recently, mountain streams and rivers have been considered synonymous with purity, but now the pollution load received is showing an upward trend. The waters under study display a low alkalinity are sufficiently oxygenated, often contain humic acids, and experience episodes of increased colored matter concentration and turbidity. The waters additionally receive some airborne pollutants (e.g., N and S compounds) which enter the water body together with precipitation. As a result, the pH of the water taken in for drinking purposes is in many instances notably lower than the value required for potable water.

Z wód miękkich, uznawanych powszechnie za czyste, coraz częściej należy usuwać nie tylko mętność i barwę, ale również zanieczyszczenia organiczne. Konwencjonalne metody oczyszczania, oparte na procesach chemicznych - z uwagi na niską buforowość wód miękkich - okazują się technologicznie trudne w realizacji. Mając to na uwadze, zaproponowano wybrane ciągi procesów technologicznych, które w znacznym stopniu mogą ograniczyć procesy chemiczne, a jednocześnie zapewnią dużą skuteczność oczyszczania wod.

The effect of a support material on the nitrification rate in biofilm reactors

70%

Kowalski E. , Mazierski J. , Suschka J.

Environment Protection Engineering

2010

tom Vol. 36, nr 2

45-61

The nitrification process in a Packed Bed Biofilm Reactor (PBBR) was investigated. The inert and carbonaceous materials were tested as the support materials. The results proved the feasibility of nitrification at pH value below 5.0. On the inert support material the bicarbonates and ammonia concentrations decreased simultaneously, but when the bicarbonates present in the bulk liquid were exhausted, the nitrification ceased. For the alkaline support media, the alkalinity in bulk liquid decreased to almost zero, but the carbonaceous support materials (marble, dolomite and Dofiltr™) react with the protons and buffer the system inside biofilm. If the marble or other carbonaceous support materials are used, the packed bed material due to dissolution controls the pH inside the fixed biofilm. In reactors, the mean residence time and the Peclet number were measured. On the basis of two models (dispersion model and reactors in series model) the nitrification constant rates in reactors were estimated.