Mr Ricardo Lionar
Higher Degree by Research Candidate
School of Architecture and Built Environment
College of Creative Arts, Design and Humanities
| Date | Position | Institution name |
|---|---|---|
| 2021 - 2021 | Design Architect | Park + Associates |
| 2019 - 2021 | Architect | SEED Architect |
| 2019 - 2019 | Property Management Intern | Department of Foreign Affairs and Trade (DFAT) - Australian Embassy |
| 2013 - 2016 | Project Architect | PHL Architects |
| 2013 - 2013 | Junior Architect | Airmas Asri |
| 2011 - 2011 | Intern Architect | Summarecon Agung |
| Language | Competency |
|---|---|
| English | Can read, write, speak and understand spoken |
| Indonesian | Can read, write, speak and understand spoken |
| Date | Institution name | Country | Title |
|---|---|---|---|
| 2017 - 2019 | The University of Sydney | Australia | Master of Architectural Science |
| 2008 - 2012 | Tarumanagara University | Indonesia | Bachelor of Architecture |
| Year | Citation |
|---|---|
| 2025 | Lionar, R., Kroll, D., Soebarto, V., Sharifi, E., & Aburas, M. (2025). Thermal Performance of Steel Facade Profiles: An Experimental Setup and Self-Shading Assessment. Journal of Building Engineering, 114, 114208. |
| 2024 | Lionar, R., Kroll, D., Soebarto, V., Sharifi, E., & Aburas, M. (2024). A review of research on self-shading façades in warm climates. Energy and Buildings, 314, 21 pages. Scopus24 WoS21 |
| Year | Citation |
|---|---|
| 2025 | Taheriasnaashari, M., Lionar, R., & Martins, L. A. (2025). A life cycle energy assessment of an Eco-Pod in South Australia. In Proceedings of the 58ᵗʰ International Conference of the Architectural Science Association. The Architectural Science Association (ANZAScA). DOI |
| 2024 | Lionar, R., Kroll, D., Soebarto, V., Sharifi, E., & Aburas, M. (2024). Thermal performance of three common steel facade profiles. In Proceedings of the International Conference of Architectural Science Association (pp. 122-129). Gold Coast, Australia: Architectural Science Association. |
| 2023 | Lionar, R., Kroll, D., Soebarto, V., Sharifi, E., & Aburas, M. (2023). Enhancing thermal performance: self-shading steel facades to reduce heat gain in hot to warm climates. In Proceedings of the International Conference of Architectural Science Association (pp. 262-275). Launceston: Architectural Science Association. Scopus1 |
