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"Sludge"
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Fast Granulation by Combining External Sludge Conditioning with FeClsub.3 Addition and Reintroducing into an SBR
The separation of light and heavy sludge, as well as the aggregation rate of floccular sludge, are two critical aspects of the rapid granulation process in sequencing batch reactors (SBRs) in the early stages. In this study, we investigated the impact of a method to improve both sludge separation and granulation by coupling effluent sludge external conditioning with FeCl[sub.3] addition and then reintroducing it into the SBR. By supplementation with 0.1 g Fe[sup.3+] (g dried sludge (DS))[sup.−1], the concentration of extracellular polymeric substances (EPS) and sludge retention efficiency greatly increased, whereas the moisture content and specific oxygen uptake rate (SOUR) sharply decreased within 24 h external conditioning. Aggregates (1.75 ± 0.05 g·L[sup.−1]) were reintroduced into the bioreactor once daily from day 13 to day 15. Afterwards, on day 17, aerobic granules with a concentration of mixed liquor suspended solids (MLSS) of 5.636 g/L, a sludge volume index (SVI[sub.30]) of 45.5 mL/g and an average size of 2.5 mm in diameter were obtained. These results suggest that the external conditioning step with both air-drying and the addition of Fe[sup.3+] enhanced the production of EPS in the effluent sludge and improved rapid aggregation and high sludge retention efficiency. Consequently, the reintroduced aggregates with good traits shortened the time required to obtain mature aerobic granular sludge (AGS) and properly separate light and heavy sludge. Indeed, this method jump-started the aggregation, and rapid granulation processes were successful in this work. Additionally, while the removal efficiency of chemical oxygen demand (COD) and nitrogen from ammonium (NH[sub.4] [sup.+]-N) decreased when reintroducing the treated sludge into the SBR, such properties increased again as the AGS matured in the SBR, up to removal efficiencies of 96% and 95%, respectively.
Journal Article
The other dark matter : the science and business of turning waste into wealth and health
\"In the world today, we face considerable challenges, and while new ones pile on, the old standbys of fossil fuel overuse, greenhouse gas emissions, resource scarcity, food security, and weather and water extremes like droughts and floods remain. Fortunately, scientists are studying myriad ways human waste can help. Science journalist Lina Zeldovich argues in The Other Dark Matter that human excrement is a resource, cheap and widely available, that can be converted into a sustainable energy source, act as an organic fertilizer, provide effective medicinal therapy for resistant bacterial infection, and much more. Zeldovich profiles the pioneers of this repurposing, including startups in remote African villages and those in American cities that convert sewage into crude oil and collect specimens from volunteers to treat patients battling superbugs. The Other Dark Matter begins with a broad overview of our history of excrement disposal. The author's vignettes touch on ancient Roman sewage systems, Medieval latrines, and other methods used around the world to distance people from their excrement. Today's immense, computerized treatment plants are only the latest in a long line of engineering marvels that have distanced us from disease, she shows, but, importantly, they have also caused considerable damage to our earth's ecology. Zeldovich explains the massive redistribution of nutrients and sanitation inequities across the globe, drawing on her research and many interviews\"-- Provided by publisher.
Book
Photo-Activated Sludge : a novel algal-bacterial biotreatment for nitrogen removal from wastewater
Ammoniumrijk afvalwater wordt veelal geproduceerd door gemeentelijk, industrieel en landbouwafval, en effluent uit anaerobe afvalwaterzuiveringsmethoden. Dit vormt een risico voor het milieu vanwege de hoge concentratie aan voedingsstoffen (stikstof en fosfor), wat eutrofièering in waterpartijen kan bevorderen en daarmee de kwaliteit van ecosystemen kan aantasten. Als innovatieve oplossing hierop is een nieuw biologisch verwerkingsmechanisme genaamd Photo-Activated Sludge (PAS) geèevalueerd, wat gebruik maakt van een consortium van microalgen en bacterièen voor de zuivering van ammoniumrijk afvalwater.
Book
Effects of ceramsite derived from sewage sludge combined with the O3–FeCl3/PAM process on the dewatering of waste-activated sludge and investigation of dewatering mechanisms
The high water content of waste-activated sludge restricts the subsequent disposal of sludge. The dehydration properties of O3, ferric chloride (FeCl3)/polyacrylamide, and sludge ceramsite sand (SCS) were studied. Simultaneously, the effect of combining the three was investigated to support the deep dehydration of waste-activated sludge. Experimental results showed that with13.42 mg/(g dry solids (DS)) of O3, 109.89 mg/(g DS) of FeCl3, and 100 mesh dosage of 70% DS of sludge ceramsite on weight, the highest sludge net yield was 7.13 kg/(m2·h) and the minimum specific resistance to filtration of sludge cake was 1.02 × 1012 (m/kg). Compared with the compressibility of the raw sludge, the compressibility of the sludge cake decreased by 37.48%. Moreover, the YN (net yield) increased by 73.55%. The results demonstrate that the structure of cracking, flocculation, and hydrophobic framework is the mechanism of sludge dewatering in this combined process. This combined treatment process provides a new perspective for the realization of deep dewatering of sludge and is anticipated to be a successful sludge dehydration method.
Journal Article
Digested wastewater sludge dewatering process using water treatment plants chemical sludge and walnut shell activated carbon powder
In this study, the feasibility of employing polyelectrolyte simultaneously by thickened sludge of water treatment plants (STS), water treatment plant dewatered sludge (DBS), and walnut shells activated carbon powder (WSCA) was investigated in a laboratory scale for wastewater sludge dewatering process. Compressibility, filtration yield, specific resistance to filterability (SRF), time to filter (TTF), extracellular polymeric substances (EPS), zeta potential, and particle size have been considered as the most important affecting parameters. Singly used cationic polyelectrolyte decreased SRF and TTF by 52% and 44%. Combining WSCA, STS, and DBS with cationic polyelectrolyte reduced the SRF to 91, 78, and 75%, and the TTF to 73.5, 59, and 46%, respectively. By destroying the EPS and decreasing the rate of protein/polysaccharides, WSCA, STS, and DBS reduce zeta potential (85, 91, and 86%). Moreover, its use decreased the compressibility coefficient by 58, 50, and 56%, and increased the filtration yield by 523, 269, and 160%, respectively. The WSCA acts significantly as a physical conditioner and increases particles' mean size significantly more than any other conditioner and improved filtration yield which has the most effect on the wastewater sludge dewatering process. The STS and DBS act as physical–chemical conditioners, neutralizing surface charges, and making porous sludge.
Journal Article
Effect of microwaves combined with peracetic acid to improve the dewatering performance of residual sludge
The activated sludge process plays a crucial role in modern wastewater treatment plants. During the treatment of daily sewage, a large amount of residual sludge is generated, which, if improperly managed, can pose burdens on the environment and human health. Additionally, the highly hydrated colloidal structure of biopolymers limits the rate and degree of dewatering, making mechanical dewatering challenging. This study investigates the impact and mechanism of microwave irradiation (MW) in conjunction with peracetic acid (PAA) on the dewatering efficiency of sludge. Sludge dewatering effectiveness was assessed through capillary suction time (CST) and specific resistance to filtration (SRF). Examination of the impact of MW-PAA treatment on sludge dewatering performance involved assessing the levels of extracellular polymeric substances (EPS), employing three-dimensional excitation-emission matrix (3D-EEM), Fourier transform–infrared spectroscopy (FT-IR), and scanning electron microscopy. Findings reveal that optimal dewatering performance, with respective reductions of 91.22% for SRF and 84.22% for CST, was attained under the following conditions: microwave power of 600 W, reaction time of 120 s, and PAA dosage of 0.25 g/g MLSS. Additionally, alterations in both sludge EPS composition and floc morphology pre- and post-MW-PAA treatment underwent examination. The findings demonstrate that microwaves additionally boost the breakdown of PAA into •OH radicals, suggesting a synergistic effect upon combining MW-PAA treatment. These pertinent research findings offer insights into employing MW-PAA technology for residual sludge treatment.
Journal Article
Rheology and friction loss of raw and digested sewage sludge with high TSS concentrations: a case study
High total suspended solids (TSS) digestion of municipal sewage sludge reduces the required space and volume for digestion plants. However, an important consequence of high TSS is the major influence on sludge rheology. The present case study investigates the rheology of sludge from a 130 m3 high solids digestion pilot plant at Vienna's main wastewater treatment plant (4 M PE120). Raw sludge ranged from 6 to 8% TSS and digested sludge from 3.2 to 4.6%. TSS show an exponential impact on rheological parameters. Increasing raw sludge TSS from 6 to 8% at least doubles the shear stress and increases friction loss by a factor of three. However, under real operating conditions simulated at the pilot plant, there are additional impact factors. The mixing ratio between waste activated and primary sludge influences raw sludge rheology, while solids retention time and loss on ignition affects digested sludge rheology. Nevertheless, friction loss calculations based on a simple power law relationship between shear rate and shear stress proved to be applicable and sufficiently accurate for both raw and digested sludge with high TSS. Altogether, this case study underlines the relevance of comprehensive rheological considerations, measurements and calculations when designing high TSS sludge digestion.
Journal Article