NUMERICAL−SIMULATION OF THE TIME−DEPENDENT CURRENT TO MEMBRANE−COVERED OXYGEN SENSORS .2. THE APPROACH TO THE STEADY−STATE AND THE RESPONSE TO A STEP CHANGE FOR A MICROCATHODE
In this paper we develop further a model for the operation of the Clark electrode that we have described previously. The difficulties of using this type of sensor with a continuously applied potential are considered, and the nature of the diffusion processes as the steady state is approached for a g...
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| Format: | Journal article |
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1993
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| _version_ | 1826302818716221440 |
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| author | Gavaghan, D Rollett, J Hahn, C |
| author_facet | Gavaghan, D Rollett, J Hahn, C |
| author_sort | Gavaghan, D |
| collection | OXFORD |
| description | In this paper we develop further a model for the operation of the Clark electrode that we have described previously. The difficulties of using this type of sensor with a continuously applied potential are considered, and the nature of the diffusion processes as the steady state is approached for a gas sample or a still liquid sample is investigated. The effects of step changes in gas sample partial pressure are considered, together with the resulting response time of the sensor to such a change |
| first_indexed | 2024-03-07T05:53:11Z |
| format | Journal article |
| id | oxford-uuid:e99c0df0-a0f4-4c54-9df0-444cac5c3868 |
| institution | University of Oxford |
| last_indexed | 2024-03-07T05:53:11Z |
| publishDate | 1993 |
| record_format | dspace |
| spelling | oxford-uuid:e99c0df0-a0f4-4c54-9df0-444cac5c38682022-03-27T10:55:30ZNUMERICAL−SIMULATION OF THE TIME−DEPENDENT CURRENT TO MEMBRANE−COVERED OXYGEN SENSORS .2. THE APPROACH TO THE STEADY−STATE AND THE RESPONSE TO A STEP CHANGE FOR A MICROCATHODEJournal articlehttp://purl.org/coar/resource_type/c_dcae04bcuuid:e99c0df0-a0f4-4c54-9df0-444cac5c3868Department of Computer Science1993Gavaghan, DRollett, JHahn, CIn this paper we develop further a model for the operation of the Clark electrode that we have described previously. The difficulties of using this type of sensor with a continuously applied potential are considered, and the nature of the diffusion processes as the steady state is approached for a gas sample or a still liquid sample is investigated. The effects of step changes in gas sample partial pressure are considered, together with the resulting response time of the sensor to such a change |
| spellingShingle | Gavaghan, D Rollett, J Hahn, C NUMERICAL−SIMULATION OF THE TIME−DEPENDENT CURRENT TO MEMBRANE−COVERED OXYGEN SENSORS .2. THE APPROACH TO THE STEADY−STATE AND THE RESPONSE TO A STEP CHANGE FOR A MICROCATHODE |
| title | NUMERICAL−SIMULATION OF THE TIME−DEPENDENT CURRENT TO MEMBRANE−COVERED OXYGEN SENSORS .2. THE APPROACH TO THE STEADY−STATE AND THE RESPONSE TO A STEP CHANGE FOR A MICROCATHODE |
| title_full | NUMERICAL−SIMULATION OF THE TIME−DEPENDENT CURRENT TO MEMBRANE−COVERED OXYGEN SENSORS .2. THE APPROACH TO THE STEADY−STATE AND THE RESPONSE TO A STEP CHANGE FOR A MICROCATHODE |
| title_fullStr | NUMERICAL−SIMULATION OF THE TIME−DEPENDENT CURRENT TO MEMBRANE−COVERED OXYGEN SENSORS .2. THE APPROACH TO THE STEADY−STATE AND THE RESPONSE TO A STEP CHANGE FOR A MICROCATHODE |
| title_full_unstemmed | NUMERICAL−SIMULATION OF THE TIME−DEPENDENT CURRENT TO MEMBRANE−COVERED OXYGEN SENSORS .2. THE APPROACH TO THE STEADY−STATE AND THE RESPONSE TO A STEP CHANGE FOR A MICROCATHODE |
| title_short | NUMERICAL−SIMULATION OF THE TIME−DEPENDENT CURRENT TO MEMBRANE−COVERED OXYGEN SENSORS .2. THE APPROACH TO THE STEADY−STATE AND THE RESPONSE TO A STEP CHANGE FOR A MICROCATHODE |
| title_sort | numerical simulation of the time dependent current to membrane covered oxygen sensors 2 the approach to the steady state and the response to a step change for a microcathode |
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