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Porschke, Peter

Peter Porschke

Facility Manager
Institute for Sanitary Engineering, Water Quality and Solid Waste Management
Administration

Contact

+49 711 685 65408
Email

Bandtäle 2
70569 Stuttgart (Büsnau)
Deutschland
Room: U 1.006 A

Subject

Deputy devision manager "Hydrobiology and Analysis of Organic Trace Compounds" (BiOS)

Publications

2017
1. Boley, A.; Korshun, G.; Boley, S.; u. a. (2017): A new reactor for denitrification and micro-particle removal in recirculated aquaculture systems, in: Water Science and Technology, Jg. 75, S. 1204–1210, doi: 10.2166/wst.2016.596.
  - Abstract
  - BibTeX
  Abstract
  A 'membrane-denitrification' reactor (MDR) was developed and tested in a semi-technical recirculation aquaculture system in comparison to a double - without MDR - as reference system. The MDR consisted of a reactor with an ultrafiltration membrane unit for removal of micro-particles (e.g. sludge flocs, bacteria and parasites). Specific carrier material provided surfaces for biofilm growth in a fluidized bed reactor with ethanol as carbon source for denitrification. The continuous motion of these carriers cleaned the membrane surface. With online and laboratory measurements of water parameters and operational data the feasibility of the concept was verified. An advantage is that no chemicals are needed to clean the membranes. Examinations of the fish and water analyses proved an MDR can positively influence cortisol, as a stress marker, and the microflora of the aquatic system.
  BibTeX
  @article{Boley.2017, abstract = {A 'membrane-denitrification' reactor (MDR) was developed and tested in a semi-technical recirculation aquaculture system in comparison to a double - without MDR - as reference system. The MDR consisted of a reactor with an ultrafiltration membrane unit for removal of micro-particles (e.g. sludge flocs, bacteria and parasites). Specific carrier material provided surfaces for biofilm growth in a fluidized bed reactor with ethanol as carbon source for denitrification. The continuous motion of these carriers cleaned the membrane surface. With online and laboratory measurements of water parameters and operational data the feasibility of the concept was verified. An advantage is that no chemicals are needed to clean the membranes. Examinations of the fish and water analyses proved an MDR can positively influence cortisol, as a stress marker, and the microflora of the aquatic system.}, author = {Boley, A. and Korshun, G. and Boley, S. and Jung-Schroers, V. and Adamek, M. and Steinhagen, D. and Richter, S.}, doi = {10.2166/wst.2016.596}, issn = {0273-1223}, journal = {Water Science and Technology}, number = {5-6}, pages = {1204--1210}, title = {A new reactor for denitrification and micro-particle removal in recirculated aquaculture systems}, volume = 75, year = 2017 }
2. Boley, A.; Weishaupt, K.; Müller, W.-R.; u. a. (2017): Combination of nitrate and particle removal in a membrane-denitrification reactor (MDR) for recirculating aquaculture systems, in: European Aquaculture Society (Hrsg.), Proceedings of Aquaculture Europe 2017, S. 135–136.
  - BibTeX
  BibTeX
  @inproceedings{Boley.2017, author = {Boley, A. and Weishaupt, K. and M{\"u}ller, W.-R. and Richter, S.}, booktitle = {Proceedings of Aquaculture Europe 2017}, editor = {{European Aquaculture Society}}, pages = {135--136}, title = {Combination of nitrate and particle removal in a membrane-denitrification reactor (MDR) for recirculating aquaculture systems}, year = 2017 }
2014
1. Boley, A.; Jung-Schroers, V.; Richter, S.; u. a. (2014): Entwicklung einer umwelt- und fischgesundheitsfreundlichen Technologie zur Verringerung der Stickstoff- und Mikropartikelfracht in Aquakultur-Kreislaufanlagen - Phase 2 Abschlussbericht ; gefördert durch die Deutsche Bundesstiftung Umwelt im Rahmen der Förderinitiative Aquakultur AZ: 28092 ; Projektlaufzeit: 12.06.2012 - 30.06.2014,.
  - BibTeX
  - Link
  BibTeX
  @misc{Boley.2014, author = {Boley, A. and Jung-Schroers, V. and Richter, S. and Steinhagen, D. and Adamek, M. and Korshun, G.}, title = {Entwicklung einer umwelt- und fischgesundheitsfreundlichen Technologie zur Verringerung der Stickstoff- und Mikropartikelfracht in Aquakultur-Kreislaufanlagen - Phase 2 Abschlussbericht ; gefördert durch die Deutsche Bundesstiftung Umwelt im Rahmen der Förderinitiative Aquakultur AZ: 28092 ; Projektlaufzeit: 12.06.2012 - 30.06.2014}, url = {http://www.worldcat.org/title/entwicklung-einer-umwelt-und-fischgesundheitsfreundlichen-technologie-zur-verringerung-der-stickstoff-und-mikropartikelfracht-in-aquakultur-kreislaufanlagen-phase-2-abschlussbericht-gefordert-durch-die-deutsche-bundesstiftun-umwelt-im-rahmen-der-forderinitiative-aquakultur-az-28092-projektlaufzeit-12062012-30062014/oclc/965795244#details-allauthors}, year = 2014 }
  Link
  http://www.worldcat.org/title/entwicklung-einer-umwelt-und-fischgesundheitsfreundlichen-technologie-zur-verringerung-der-stickstoff-und-mikropartikelfracht-in-aquakultur-kreislaufanlagen-phase-2-abschlussbericht-gefordert-durch-die-deutsche-bundesstiftun-umwelt-im-rahmen-der-forderinitiative-aquakultur-az-28092-projektlaufzeit-12062012-30062014/oclc/965795244#details-allauthors
2012
1. Boley, A.; Weishaupt, K.; Müller, W.-R. (2012): Entwicklung einer umwelt- und fischgesundheitsfreundlichen Technologie zur Verringerung der Stickstoff- und Mikropartikelfracht in Aquakultur-Kreislaufanlagen: Laboruntersuchungen, in: Dirk Kleingeld (Hrsg.), Tagungsband der XIV. Gemeinschaftstagung der Deutschen, Österreichischen und Schweizer Sektionen der European Association of Fish Pathologists (EAFP), S. 178–185.
  - BibTeX
  BibTeX
  @inproceedings{Boley.2012, author = {Boley, A. and Weishaupt, K. and M{\"u}ller, W.-R.}, booktitle = {Tagungsband der XIV. Gemeinschaftstagung der Deutschen, {\"O}sterreichischen und Schweizer Sektionen der European Association of Fish Pathologists (EAFP)}, editor = {{Dirk Kleingeld}}, pages = {178--185}, title = {Entwicklung einer umwelt- und fischgesundheitsfreundlichen Technologie zur Verringerung der Stickstoff- und Mikropartikelfracht in Aquakultur-Kreislaufanlagen: Laboruntersuchungen}, year = 2012 }

Teaching

Module "Environmental Health and Biological Methods for Evaluation": Lecture "Environmental Health" and Practical Work "Environmental Biology"

Research projects

Development of an innovative biological simple process for nitrate elimination in aquaculture with fatty acids as carbon source for water saving in Recirculation Aquaculture Systems (RAS)
Development of an environmentally friendly technology in aquaculture for the extraction of nitrogen and microparticles in recirculation systems
NoNitriNox - Design and operation of resource and energy efficient wastewater treatment plants with targeted prevention of environmental harmful emissions (joint research project: subproject 2)

Peter Porschke

Contact

Subject

Publications

2017

Abstract

BibTeX

BibTeX

2014

BibTeX

Link

2012

BibTeX

Teaching

Research projects

Audience

Formalities

Services

Organization

Peter Porschke

Contact

Subject

Publications

2017

Abstract

BibTeX

BibTeX

2014

BibTeX

Link

2012

BibTeX

Teaching

Research projects

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Audience

Formalities

Services

Organization