BiomEHD: Optimizing biogas odorization in gas pipelines by implementing Electrohydrodynamic atomization
| Dossier | HT.KIEM.01.060 |
|---|---|
| Status | Lopend |
| Subsidie | € 40.000 |
| Startdatum | 1 oktober 2024 |
| Einddatum | 31 maart 2026 |
| Regeling | KIEM HighTech 2024-2026 |
| Thema's |
|
At gas stations, tetrahydrothiophene (THT) is added to odorless biogas (and natural gas) for quick leak detection through its distinctive smell. However, for low bio and natural gas velocities, evaporation is not complete and the odorization process is compromised, causing odor fluctuations and undesired liquid accumulation on the pipeline. Inefficient odorization not only endangers the safety and well-being of gas users, but also increases gas distribution companies OPEX. To enhance THT evaporation during low bio and natural gas flow, an alternative approach involves improve the currently used atomization process. Electrohydrodynamic Atomization (EHDA), also known as Electrospray (ES), is a technology that uses strong electric fields to create nano and micro droplets with a narrow size distribution. This relatively new atomization technology can improve the odorization process as it can manipulate droplet sizes according to the natural and bio gas flow. BiomEHD aims to develop, manufacture, and test an EHDA odorization system for applying THT in biogas odorization.
Eindrapportage
At gas stations, tetrahydrothiophene (THT) is added to odorless biogas (and natural gas) for quick leak detection through its distinctive smell. However, for low bio and natural gas velocities, evaporation is not complete and the odorization process is compromised, causing odor fluctuations and undesired liquid accumulation on the pipeline. Inefficient odorization not only endangers the safety and well-being of gas users, but also increases gas distribution companies OPEX. To enhance THT evaporation during low bio and natural gas flow, an alternative approach involves improve the currently used atomization process. Electrohydrodynamic Atomization (EHDA), also known as Electrospray (ES), is a technology that uses strong electric fields to create nano and micro droplets with a narrow size distribution. This relatively new atomization technology can improve the odorization process as it can manipulate droplet sizes according to the natural and bio gas flow.
During the project, an EHDA-based odorization system was successfully designed, taking into account the specifications and operational requirements of SoClema's gas odorization infrastructure. In addition, a current acquisition and monitoring system was developed, enabling remote measurement and recording of the electrical current generated during the electrospray process.Experimental investigations were conducted to study the relationship between THT flow rate and electrical current. The results demonstrated a clear correlation between these parameters, resulting in the development of operating maps that relate flow rate, voltage, current, and electrospray mode. These findings indicate that electrical current measurements can potentially be used as a tool for monitoring and estimating THT flow rates in EHDA-based odorization systems.
Contactinformatie
Luewton Agostinho, contactpersoon
Consortiumpartners
bij aanvang project- SOCLEMA
- Venema Fijnmechaniek B.V.