Cryogenic Engineering and Technology, Bauman Moscow State Technical University

Title: Cryogenic Engineering and Technology  
Degree awarded: Master of Science

Duration: 2 years


Master's Programme in Cryogenic Engineering is aimed at teaching students to meet modern science and industry demands. Learners should be able to carry out theoretical, computational and practical work in the field of cryogenic engineering. The study programme enables industry- and research-oriented graduates to be able to make analysis, design, manufacture and use machinery, plants, equipment, and devices of cryogenic engineering. The programme also allows professionals to investigate processes in cryogenic systems and plants and have an access to the doctoral school.

Graduates demonstrate modern methods to examine, design, and apply new cryogenic machinery, plants, appliances using recent information technologies as well as they are skilled to develop and introduce new models of cryogenic engineering and apply the high-tech processes in their analysis, design and manufacturing.

 Programme Objectives

O1Conduct activities with research and development (R&D) related to the innovation techniques for calculation and design and to the experimental study of low-temperature plant facilities and related industries;
O2Conduct manufacturing, R&D, and innovation activities to create new CAD-based and environmentally safe cryogenic facilities;
O3Perform value engineering of research and industry projects including multidisciplinary ones;
O4Carry out consulting and expert activities, analyze and compare and generalize research and industrial outcomes, prepare presentations and publications including those of in foreign language;
O5Show skills to organize and manage different profile specialists teamwork from different countries;
O6Carry out research and teaching activities both in the secondary schools of physics and mathematics and HEIs;
O7Upgrade professional knowledge and skills, including further studies at doctoral school.

 Programme Learning Outcomes

Professional skills
P1Show sound knowledge of physical processes in machines, apparatus, and plants of cryogenic engineering; identify challenges and demands of the industry in terms of cuttingedge technology achievements and world tendencies
P2Apply physicmathematical tools, theory- and computation-based methods of analysis, mathematical and computer modeling to design machines, apparatus, and plants of cryogenic engineering
P3Design low-temperature systems and machinery to meet the requirements for their maximum performance and durability, safety of life
P4Apply CAD-systems to design components for cryogenic machines and systems
P5Elaborate a feasibility study to design competitive ecologically safe cryogenic machines and plants
P6Display new contemporary methods and tools to carry out thermo-physical and mechanical investigations, analysis, and processing of cryogenic machines, plants and equipment
P7Demonstrate skills in running the modern cryogenic machines and plants, integrating innovative approaches, to ensure their high performance, cost-effectiveness and health and environment safety
P8Advise cost-engineers, designers, technologists and examine the theoretical and experimental cryogenic engineering work in terms of science and technology
Personal skills
P9Have a good command of Russian and foreign languages with the ability for appropriate business communication, correspondence, documents circulation and for making presentations and papers, writing articles and reports
P10Apply basic principles of social, humanitarian, and economic sciences to solve social and professional problems and follow legislation in activities
P11Use practical experience and skills to manage professional activities of an individual, a team worker and an international teams leader of specialists with different profile
P12Upgrade a qualification independently through life-long learning, hold studies for students at different levels both in cryogenic engineering, and in physics and mathematics