瓦格宁根大学

Towards a circular sulphur economy

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项目介绍

Function

Research challenges – In the biological gas desulphurisation process, gas, liquid, and solid phases co-exist. For instance, in the absorber, a gas phase (sour gas) is contacted with a liquid phase (haloalkaline solution), which contains solid phases (biosulphur particles and microorganisms). While the microbial community and its associated kinetics have been extensively studied, a number of phenomena in the biological gas desulphurisation process are not yet fully understood. The recently discovered electron shuttling capacity of sulfide oxidizing bacteria is one of these. Due to these phenomena, dissolved sulfide is removed from process solution, without consuming oxygen. Other not fully understood phenomena are, for instance, the enhancement of H2S absorption by bacteria and the sulfur crystals formation. All of these processes are hypothesized to occur at the interfaces of the biological desulfurization process. Hence, research is required to investigate the interplays between kinetics of chemical and biological reactions and transfer rates at the interfaces.

Objectives and methodology – This project aims to understand the interplays between the kinetics of the biological reactions, the kinetics of the chemical reactions, and the transfer rates around the various gas-liquid and liquid-solid interfaces in the biological gas desulphurisation process. In the last decennia, a large number of projects have been executed, resulting in a vast amount of experimental data. However, a minimum amount of the full potential of the work has been utilized, since the majority has not been used for modelling to unravel the aforementioned phenomena. Hence, part of this work will be focussing on developing models describing the transfer and reaction kinetics at the interfaces. In addition, next to utilizing data obtained in previous work, experimental work will be performed in batch and/or continuous bench scale setups to gather data for model validation and calibration. Furthermore, when required, pilot plant facilities (owned by Paqell B.V.) may be used validate the developed models.

Function Requirements

  • MSc degree in environmental technology, biotechnology, chemical technology or related field;
  • Proven experience with modelling software, such as Matlab and Comsol;
  • Interest in transfer processes;
  • Strong analytical skills;
  • Ability to work in a multi-disciplinary team;
  • Experience with lab work;
  • Fluency in English, both written and spoken.

Working conditions

Wageningen University & Research offers excellent terms of employment. A few highlights from our Collective Labour Agreement include:

  • sabbatical leave, study leave, and paid parental leave;
  • working hours that can be discussed and arranged so that they allow for the best possible work-life balance;
  • the option to accrue additional holiday hours by working more, up to 40 hours per week;
  • there is a strong focus on vitality and you can make use of the sports facilities available on campus for a small fee;
  • a fixed December bonus of 8.3%;
  • excellent pension scheme.

In addition to these first-rate employee benefits, you will of course receive a good salary.

Contact information

Academic supervisor: Prof. dr. K.J. Keesman (Mathematical and Statistical methods, Wageningen University).
Wetsus Supervisor: Dr. Ir. Jan Klok (Theme Coordinator Sulfur)

You can apply by selecting your vacancy on https://phdpositionswetsus.eu/available-research-position/. Applications directly to WUR will not be taken into consideration. The procedure to apply is written in detail on https://phdpositionswetsus.eu/guide-for-applicants/Only applications that are complete, in English, and submitted via the application webpage before the deadline will be considered eligible.

Keywords:Biological Sulfide oxidation, Interfaces, Kinetics, Modelling

录取要求

  • MSc degree in environmental technology, biotechnology, chemical technology or related field;
  • Proven experience with modelling software, such as Matlab and Comsol;
  • Interest in transfer processes;
  • Strong analytical skills;
  • Ability to work in a multi-disciplinary team;
  • Experience with lab work;
  • Fluency in English, both written and spoken.

项目概览

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欧陆, 荷兰 所在地点
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截止日期 2021-10-29
瓦格宁根大学

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瓦格宁根大学是一所以农学著称的世界顶尖研究型高等学府。
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