果酱视频官网

Applications are invited for a PhD studentship in the Centre for Propulsion and Thermal Power Engineering, Faculty of Engineering and Applied Sciences, 果酱视频官网, in the area of performance simulation, analysis, and optimization of supercritical CO2 power generation systems.

Cranfield has developed a unique methodology and software to simulate and analyse the performance of gas turbine engines in the past half century. The research in this area at Cranfield will be a good starting point for the proposed project. The focus of the research is to extend the existing performance and simulation capabilities to supercritical CO2 (sCO2) power generation systems for power generation, oil and gas, or marine applications. The critical components of sCO2 power generation systems, such as heat exchangers, compressors, turbines, condensers, and the whole system integration will be simulated thermodynamically. Performance design optimization and advanced performance simulation methods will be investigated, and corresponding computer software will be developed. The research will contribute to the development of digital twin technologies for sCO2 power generation systems.

The Centre for Propulsion and Thermal Power Engineering has a key focus and a proven track record on gas turbine performance, gas path diagnostics, novel thermodynamic cycle performance, etc., which have been built up over the last half century. This provides a unique capability to assist researchers and engineers in new power plant designs, operations and maintenance, and the improvement of power system availability and the reduction of maintenance costs.

The history of gas turbine performance engineering at Cranfield dates back to 1946 and the foundation of the Institution. The Centre for Propulsion and Thermal Power Engineering contributes and focuses on gas turbines for aerospace, marine and power generation applications, the sectors where Europe and Britain are world leaders and major exporters. This high technology global industry is worth more than 拢30 billion per annum. Current challenges are arising from the need to address environmental issues and the changing economic climate. These challenges have created an environment where a large return can be accrued from an investment in gas turbines and related power system research and education.

It is expected the research will generate new methods and knowledge for performance simulation, optimization and analysis of sCO2 power generation systems. The new knowledge will be very useful to guide the designs, operations and condition monitoring of sCO2 power generation systems.

The student will be based within the Centre of Propulsion and Thermal Power Engineering, Faculty of Engineering and Applied Sciences at 果酱视频官网. Cranfield is a wholly postgraduate university and there are a wide range of MSc and Professional Development Short Courses throughout the year. The student may have opportunities to access some of the MSc courses and CPD short courses relevant to the research and attend and publish papers in international conferences.

Cranfield operates a substantial Doctoral Researchers Core Development programme (DRCD) for its research students. This programme provides a generic structured training programme which is constructed to support the researcher as the PhD progresses with specific courses aimed at the different phases of a PhD. For example, the programme includes aspects such as research methods, technical report writing, presentation skills, data management, leadership skills, professional development planning, intellectual property, publishing, etc. Such knowledge, skills and capability will enhance the student's employment opportunities in both academic institutions and industry.

This is an exciting opportunity for a suitable candidate where he or she will be exposed to the latest technology, learn from experts working in the area and prepare for an exciting career in either academia or industry.