Abstract:
This paper describes the methods used to establish a control law based on a Disturbance Observer (DO) in a generalized model of two types of alkaline electrolyzers. A phy...Show MoreMetadata
Abstract:
This paper describes the methods used to establish a control law based on a Disturbance Observer (DO) in a generalized model of two types of alkaline electrolyzers. A physical test bench, where a test campaign took place, provided the data to identify the dominant modes. The validated model has allowed us to verify the proposed control law through simulation. These initial results encourage us to introduce the electrolyzers into an engine vehicle test bench to observe and study the effects of the hydrogen produced as a complement to gasoline in reducing pollutants.
Date of Conference: 15-17 May 2024
Date Added to IEEE Xplore: 18 June 2024
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ISSN Information:
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- IEEE Keywords
- Index Terms
- Optimal Control ,
- Dominant Mode ,
- Run Test ,
- Test Bench ,
- Electrode ,
- Control Parameters ,
- Hydrogen Production ,
- Control Objective ,
- Specific Units ,
- Proportional-integral-derivative ,
- Dry Cell ,
- Ohm’s Law ,
- Proton Exchange Membrane ,
- Control Coefficients ,
- Wet Cell ,
- Extended State Observer ,
- Dominant Pole ,
- Active Disturbance Rejection Control
- Author Keywords
Contents Keywords assist with retrieval of results and provide a means to discovering other relevant content. Learn more.
- IEEE Keywords
- Index Terms
- Optimal Control ,
- Dominant Mode ,
- Run Test ,
- Test Bench ,
- Electrode ,
- Control Parameters ,
- Hydrogen Production ,
- Control Objective ,
- Specific Units ,
- Proportional-integral-derivative ,
- Dry Cell ,
- Ohm’s Law ,
- Proton Exchange Membrane ,
- Control Coefficients ,
- Wet Cell ,
- Extended State Observer ,
- Dominant Pole ,
- Active Disturbance Rejection Control
- Author Keywords
