Development and practice of national first-class undergraduate course "bioengineering equipment" / 生物工程学报

As a strategic emerging industry of China, the biotechnology industry develops rapidly in recent years, which significantly increased the demand for creative and capable talents. As a core curriculum of bioengineering specialty, biotechnology equipment plays an important role in fostering such talents. To address the problems in biotechnology equipment course teaching such as limited equipment availability, limited engineering practice, and lack of learning motivations, curriculum reform and optimization were performed based on curriculum resource development, virtual reality-physical combined engineering training, and boosting learning motivations. The optimized teaching contents focus on fostering morality, intelligence, and creative practice abilities by connecting new requirements of social development, introducing new progress in biotechnology research, as well as new practices in research and development (R & D). Measures such as teaching methods innovation, assessment and evaluation methods optimization, cutting-edge R & D progress, diverse resources integration, and online-offline combined teaching, were developed to boost the learning motivation and foster the innovation competence of students. By above exploration and practice, the practice and innovation competence of students were significantly enhanced.

Research progress in spore-based in-situ restoration technology of concrete with microorganisms / 生物工程学报

Concrete is the most widely used modern building material. It is easy to crack under the action of stress, which makes the concrete structure permeable, affecting the durability and integrity of the structure, and thus shortening its service life. Microbial in-situ remediation technology is a low cost, effective and green way for concrete crack repairing. Due to its excellent biocompatibility, service life elongation, economic losses and environmental pollution reduction, microbial in-situ remediation technology has been intensively investigated. Bacillus has attracted much attention because of its excellent biomineralization ability, extremely strong environmental tolerance and long-term survival ability of its spores. In order to promote the research, development and large-scale application of microbial in-situ healing of concrete, the paper reviews the mechanism of spore-based in-situ healing of concrete, the survival of spores exposed in concrete, the influence of spores and external additives on the mechanical properties of concrete, progress in research and development of healing agent as well as healing effects. Moreover, future research focuses such as improving the survival ability of spores in the harsh environment of concrete, reducing the influence of external additives on the mechanical properties of concrete, and strengthening the healing effect of actual field applications are also summarized.