Augmented reality application for chemical engineering unit operations
Understanding unit operations is an essential part in chemical engineering course. An important example is the continuous distillation column, which operation is often seen as a black box, where the incoming feed will undergo separation process inside the column to produce desired products. Despit...
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2022
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sg-ntu-dr.10356-1557462022-03-16T04:44:08Z Augmented reality application for chemical engineering unit operations Gunawan, Poernomo Kwan, James Cai, Yiyu Yang, Rui Y. Cai W. van Joolingen K. Veermans School of Chemical and Biomedical Engineering School of Mechanical and Aerospace Engineering Engineering::Chemical engineering Augmented Reality Unit Operations Understanding unit operations is an essential part in chemical engineering course. An important example is the continuous distillation column, which operation is often seen as a black box, where the incoming feed will undergo separation process inside the column to produce desired products. Despite having learned the concepts on how they work, students may find it difficult to comprehend and visualize what is going on inside a distillation column and how to connect various theories involved in the design and calculations. By developing a virtual visualization tool, such as augmented reality (AR), students can better visualize the process, such as fluid flow profiles and different components that make up a distillation column. Although the idea of incorporating AR for higher education learning is not entirely new, this is the first initiative to implement virtual technology for chemical engineering curriculum in Singapore, which serves as a novel pedagogical approach to complement the conventional pen-and-paper teaching method. Besides enhancing the students’ learning experience, it is believed that the AR application would provide a way to improve the students’ motivation and interest to learn the subject as well as a complementary tool for laboratory demonstration, as it is practically safe and time-saving. 2022-03-16T04:44:08Z 2022-03-16T04:44:08Z 2021 Book Chapter Gunawan, P., Kwan, J., Cai, Y. & Yang, R. (2021). Augmented reality application for chemical engineering unit operations. Y. Cai, W. van Joolingen & K. Veermans (Eds.), Virtual and Augmented Reality, Simulation and Serious Games for Education (pp. 29-43). Springer, Singapore. https://hdl.handle.net/10356/155746 978-981-16-1360-9 https://hdl.handle.net/10356/155746 10.1007/978-981-16-1361-6_4 29 43 en Virtual and Augmented Reality, Simulation and Serious Games for Education © 2021 The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd. All rights reserved. Springer, Singapore |
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Singapore Singapore |
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Engineering::Chemical engineering Augmented Reality Unit Operations |
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Engineering::Chemical engineering Augmented Reality Unit Operations Gunawan, Poernomo Kwan, James Cai, Yiyu Yang, Rui Augmented reality application for chemical engineering unit operations |
| description |
Understanding unit operations is an essential part in chemical engineering course. An important example is the continuous distillation column, which
operation is often seen as a black box, where the incoming feed will undergo
separation process inside the column to produce desired products. Despite having
learned the concepts on how they work, students may find it difficult to comprehend
and visualize what is going on inside a distillation column and how to connect
various theories involved in the design and calculations. By developing a virtual
visualization tool, such as augmented reality (AR), students can better visualize the
process, such as fluid flow profiles and different components that make up a distillation column. Although the idea of incorporating AR for higher education
learning is not entirely new, this is the first initiative to implement virtual technology for chemical engineering curriculum in Singapore, which serves as a novel
pedagogical approach to complement the conventional pen-and-paper teaching
method. Besides enhancing the students’ learning experience, it is believed that the
AR application would provide a way to improve the students’ motivation and
interest to learn the subject as well as a complementary tool for laboratory
demonstration, as it is practically safe and time-saving. |
| author2 |
Y. Cai |
| author_facet |
Y. Cai Gunawan, Poernomo Kwan, James Cai, Yiyu Yang, Rui |
| format |
Book Chapter |
| author |
Gunawan, Poernomo Kwan, James Cai, Yiyu Yang, Rui |
| author_sort |
Gunawan, Poernomo |
| title |
Augmented reality application for chemical engineering unit operations |
| title_short |
Augmented reality application for chemical engineering unit operations |
| title_full |
Augmented reality application for chemical engineering unit operations |
| title_fullStr |
Augmented reality application for chemical engineering unit operations |
| title_full_unstemmed |
Augmented reality application for chemical engineering unit operations |
| title_sort |
augmented reality application for chemical engineering unit operations |
| publisher |
Springer, Singapore |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/155746 |
| _version_ |
1728433371375206400 |