Your search keyword '"Reinecke SF"' showing total 3 results

1. Efficient removal of succinic acid by continuous hydrodynamic cavitation combined with ozone and side influent injection.

Author

Huaccallo-Aguilar Y, Kumar A, Meier M, Lerch A, and Reinecke SF

Subjects

Water Pollutants, Chemical chemistry, Waste Disposal, Fluid methods, Water Purification methods, Ozone chemistry, Wastewater chemistry, Hydrodynamics, Succinic Acid chemistry

Abstract

Micropollutants (MPs) encompass a range of human-made pollutants present in trace amounts in environmental systems. MPs include pharmaceuticals, personal care products, pesticides, persistent organic pollutants, micro- and nano-plastics, and artificial sweeteners, all posing ecological risks. Conventional municipal wastewater treatment methods often face challenges in completely removing MPs due to their chemical characteristics, stability, and resistance to biodegradation. In this research, an Advanced Oxidation Process, combining hydrodynamic cavitation (HC) with dissolved ozone (O 3 ) and side injection, was employed to efficiently degrade succinic acid (SA), an ozone-resistant compound and common byproduct. The HC/O 3 process was run to treat different synthetic effluents, focusing on evaluating the influence of O 3 -to-total organic carbon (TOC) ratio, cavitation number (C v ) and O 3 dosage. Notably, the results from a series of 14 experiments highlighted the critical significance of a low O 3 -to-TOC ratio value of 0.08 mg/mg and C v value of 0.056 in HC for achieving efficient SA removal of 41.2% from an initial SA solution (106.3 mg/L). Regarding a series of four proof-of-concept experiments and their replications, the average TOC removal reached 62% when treating wastewater treatment plant effluent spiked with SA. This significant removal rate was achieved under initial conditions: C v of 0.02, O 3 -to-TOC ratio set at 0.77 mg/mg, TOC concentration of 47.7 mg/L, 106 mg/L of SA, and a temperature of 25 °C. Notably, the electrical energy per order required for the 62% reduction in TOC was a modest 12.5 kWh/m 3 /order, indicating the potential of the continuous HC/O 3 process as a promising approach for degrading a wide range of MPs., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2024

2. The use of pure oxygen for aeration in aerobic wastewater treatment: A review of its potential and limitations.

Author

Skouteris G, Rodriguez-Garcia G, Reinecke SF, and Hampel U

Subjects

Bioreactors, Membranes, Artificial, Oxygen, Sewage, Waste Disposal, Fluid, Wastewater

Abstract

In aerobic wastewater treatment, aeration is the most critical element of the treatment system. It supplies microorganisms with the required dissolved oxygen, maintains solids in suspension and, in membrane bioreactors, it controls fouling. However, conventional activated sludge is limited to the treatment of low strength wastewaters, as higher loadings require both higher biomass and higher dissolved oxygen concentrations. By replacing air with pure oxygen, oxygen transfer rates increase at lower flowrates. In this work, the potential and limitations of pure oxygen aeration are reviewed. The effect of the system's operational parameters and the mixed liquor characteristics on oxygen transfer, and vice versa, are determined. Pure oxygen treats higher loadings without compromising effluent quality. Fine bubbles are more efficient in oxygen transfer due to their increased contact area. However, pure oxygen is not always essential, so it is recommended to be restricted to applications where air is not adequate., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published

2020

3. Magnetic Communication Using High-Sensitivity Magnetic Field Detectors.

Author

Hott M, Hoeher PA, and Reinecke SF

Abstract

In this article, an innovative approach for magnetic data communication is presented. For this purpose, the receiver coil of a conventional magneto-inductive communication system is replaced by a high-sensitivity wideband magnetic field sensor. The results show decisive advantages offered by sensitive magnetic field sensors, including a higher communication range for small receiver units. This approach supports numerous mobile applications where receiver size is limited, possibly in conjunction with multiple detectors. Numerical results are supported by a prototype implementation employing an anisotropic magneto-resistive sensor.

Published

2019