Establishing Cause-Effect Relationships in Activated Sludge Plants - what Can Be Controlled
(1994) 8th Forum for Applied Biotechnology p.2057-2070- Abstract
- Plant wide control problems in the activated sludge process have been revisited. The ultimate criteria for controlling a complete plant have been systematically addressed only infrequently. In principle, the effluent has to meet the standard at a minimal cost. Basically, the process is at the time driven by disturbances, mostly via the influent flow, but sometimes created within the plant. An essential task for any control system is to either minimise the consequences of the disturbances or to even eliminate them, before they hit the process. In this paper the main purpose is to systematically classify cause-effect relationships between available knowledge and open questions. This qualitative reasoning is meant to better define what can be... (More)
- Plant wide control problems in the activated sludge process have been revisited. The ultimate criteria for controlling a complete plant have been systematically addressed only infrequently. In principle, the effluent has to meet the standard at a minimal cost. Basically, the process is at the time driven by disturbances, mostly via the influent flow, but sometimes created within the plant. An essential task for any control system is to either minimise the consequences of the disturbances or to even eliminate them, before they hit the process. In this paper the main purpose is to systematically classify cause-effect relationships between available knowledge and open questions. This qualitative reasoning is meant to better define what can be achieved in the operation of a plant. The dynamic of an activated sludge system span over several orders of magnitude, from seconds to months. These different time scales allow many control actions to be decoupled. As a result, slowly varying variables can be controlled while assuming the fast dynamics to be instantaneous. Likewise fast varying variables may be manipulated while the slow modes are considered constant. (Less)
Please use this url to cite or link to this publication:
https://lup.lub.lu.se/record/4388232
- author
- Olsson, Gustaf LU and Jeppsson, Ulf LU
- organization
- publishing date
- 1994
- type
- Chapter in Book/Report/Conference proceeding
- publication status
- published
- subject
- keywords
- Water management Water resources Coal
- host publication
- Eight forum for applied biotechnology: 28-30 september 1994: proceedings, part I-II (Mededelingen faculteit landbouwkundige en toegepaste biologische wetenschappen (59(4a-b)
- pages
- 2057 - 2070
- conference name
- 8th Forum for Applied Biotechnology
- conference location
- Gent, Belgium
- conference dates
- 1994-09-28 - 2007-09-30
- language
- English
- LU publication?
- yes
- additional info
- Eight forum for applied biotechnology: 28-30 september 1994: proceedings part i. Mededelingen faculteit landbouwkundige en toegepaste biologische wetenschappen (59(4a)1701-2103(1994)). Universiteit Gent: Gent. P. 1701-2103 Eight forum for applied biotechnology: 28-30 september 1994: proceedings part ii. Mededelingen faculteit landbouwkundige en toegepaste biologische wetenschappen (59(4b)2105-2511(1994)). Universiteit Gent: Gent. P. 2105-2511
- id
- a978a9c9-d581-44b6-b78f-b63220e9818f (old id 4388232)
- date added to LUP
- 2016-04-04 13:00:44
- date last changed
- 2018-11-21 21:11:46
@inproceedings{a978a9c9-d581-44b6-b78f-b63220e9818f, abstract = {{Plant wide control problems in the activated sludge process have been revisited. The ultimate criteria for controlling a complete plant have been systematically addressed only infrequently. In principle, the effluent has to meet the standard at a minimal cost. Basically, the process is at the time driven by disturbances, mostly via the influent flow, but sometimes created within the plant. An essential task for any control system is to either minimise the consequences of the disturbances or to even eliminate them, before they hit the process. In this paper the main purpose is to systematically classify cause-effect relationships between available knowledge and open questions. This qualitative reasoning is meant to better define what can be achieved in the operation of a plant. The dynamic of an activated sludge system span over several orders of magnitude, from seconds to months. These different time scales allow many control actions to be decoupled. As a result, slowly varying variables can be controlled while assuming the fast dynamics to be instantaneous. Likewise fast varying variables may be manipulated while the slow modes are considered constant.}}, author = {{Olsson, Gustaf and Jeppsson, Ulf}}, booktitle = {{Eight forum for applied biotechnology: 28-30 september 1994: proceedings, part I-II (Mededelingen faculteit landbouwkundige en toegepaste biologische wetenschappen (59(4a-b)}}, keywords = {{Water management Water resources Coal}}, language = {{eng}}, pages = {{2057--2070}}, title = {{Establishing Cause-Effect Relationships in Activated Sludge Plants - what Can Be Controlled}}, year = {{1994}}, }