numerical modelling of biological processes in the subsurface. Biological hydrogen sulphide production in subsurface reservoirs and pipelines is an unfavourable phenomenon as leads to higher operational costs. The produced hydrogen sulphide is a toxic gas leading to health and safety issues; it also enhances infrastructure corrosion among other negative effects. Souring in such systems is mainly due to respiration of anaerobic microorganisms (sulphate-reducing prokaryotes, SRP) that reduces sulphate to sulphide
M.Sc. degree in engineering or other relevant areas; Excellent Knowledge of the fundamentals of multiphase flow and transport in porous media; A good knowledge of geomicrobiology and applied mathematics is very valuable; Previous experience with devloping numerical codes for reactive transport models is highly advantageous; A good knowledge of mathematical modelling and optimisation; Ability to work in a multi-disciplinary environment as an independent researcher; Good writing and communication skills in English
PhD position: Improving Reservoir Souring Treatments for Chalk Formations Centre for Oil and Gas - DTU Share on Facebook Share on Twitter Share on Linkedin Wednesday 05 Feb 20 Apply for this job Apply no later than 19 February 2020 Apply for the job at Centre for Oil and Gas - DTU by completing the following form. Apply online The Danish Hydrocarbon Research and Technology Centre, Technical University of Denmark (DTU), invites applicants for a multidiscipline PhD position in the area of numerical modelling of biological processes in the subsurface. Responsibilities and tasks Biological hydrogen sulphide production in subsurface reservoirs and pipelines is an unfavourable phenomenon as leads to higher operational costs. The produced hydrogen sulphide is a toxic gas leading to health and safety issues; it also enhances infrastructure corrosion among other negative effects. Souring in such systems is mainly due to respiration of anaerobic microorganisms (sulphate-reducing prokaryotes, SRP) that reduces sulphate to sulphide. These microorganisms may exist indigenously in the reservoirs or/and may be introduced into the system during drilling and waterflooding. Utilising seawater for waterflooding provides additional sulphate and SRP in the system. The main strategies to reduce the probability of souring are: injecting nitrate and/or nitrite to inhibit SRP activity and/or oxidize sulphide; removing sulphate from injection water; and biocide treatments. Controlling the microbial souring by injecting nitrate to shift the indigenous microbial community away from sulfide production has become an established method. However, to predict and design the cost effective long-term strategies for the souring control process more work is needed. The reliable quantification of the mechanism of different treatments under altered reservoir conditions is still a challenge and requires more examinations. The effects of altered reservoir conditions, fractures, reservoir heterogeneity, bioavailability, self-inhibition, among others, on the souring control process have not been studied in detail in chalk reservoirs. Detailed reservoir simulations incorporating all the relevant available information are required to predict the success of various treatment options while reducing the uncertainties. The PhD student will develope numerical models for coupled proccesses in chalk formations. He/She will investigate the interaction among different hydraulic, chemical and biological processes controlling the flow dynamic in the reservoirs. A thorough sensitivity analysis on the effect of different mechanisms on the microbial growth and hydrogen sulphide production at different scales will be conducted to identify the most influential parameters. This will be then tested for data measured for the targeted field. The position will be an integrated part of the Scale & Corrosion programme with the focus on improving well integrity. The PhD project involves also field studies. Qualifications M.Sc. degree in engineering or other relevant areas; Excellent Knowledge of the fundamentals of multiphase flow and transport in porous media; A good knowledge of geomicrobiology and applied mathematics is very valuable. Previous experience with devloping numerical codes for reactive transport models is highly advantageous. A good knowledge of mathematical modelling and optimisation Ability to work in a multi-disciplinary environment as an independent researcher; Good writing and communication skills in English; Approval and Enrolment The scholarship for the PhD degree is subject to academic approval, and the candidate will be enrolled in one of the general degree programmes at DTU. For information about our enrolment requirements and the general planning of the PhD study programme, please see the DTU PhD Guide . We offer DTU is a leading technical university globally recognized for the excellence of its research, education, innovation and scientific advice. We offer a rewarding and challenging job in an international environment. We strive for academic excellence in an environment characterized by collegial respect and academic freedom tempered by responsibility. Salary and appointment terms The appointment will be based on the collective agreement with the Danish Confederation of Professional Associations. The allowance will be agreed upon with the relevant union. The period of employment is 3 years. You can read more about career paths at career paths at DTU here . Further information Further information may be obtained from Dr. Hamid Nick, firstname.lastname@example.org . You can read about the scientific basis for the centre’s activities here: www.oilgas.dtu.dk/english/Research . Application procedure Please submit your online application no later than 19 February 2020 (23:59 local time) . Applications must be submitted as one PDF file containing all materials to be given consideration. To apply, please open the link "Apply online", fill out the online application form, and attach all your materials in English in one PDF file . The file must include: Application stating your specific interest, motivation and qualifications for the project. Curriculum vitae Grade transcripts and BSc/MSc diploma Research statement and names and addresses of three references Excel sheet with translation of grades to the Danish grading system (see guidelines and Excel spreadsheet here ) Candidates may apply prior to obtaining their master's degree, but cannot begin before having received it. Applications and enclosures received after the deadline will not be considered. All interested candidates irrespective of age, gender, race, disability, religion or ethnic background are encouraged to apply. Technology for people DTU develops technology for people. With our international elite research and study programmes, we are helping to create a better world and to solve the global challenges formulated in the UN’s 17 Sustainable Development Goals. Hans Christian Ørsted founded DTU in 1829 with a clear vision to develop and create value using science and engineering to benefit society. That vision lives on today. DTU has 11,500 students and 6,000 employees. We work in an international atmosphere and have an inclusive, evolving, and informal working environment. Our main campus is in Kgs. Lyngby north of Copenhagen and we have campuses in Roskilde and Ballerup and in Sisimiut in Greenland.
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