1. Tun-Ping Teng, Wei-Jen Chen (2024, Jan). Using Pearson correlation coefficient as a performance indicator in the compensation algorithm of asynchronous temperature-humidity sensor pair. Case Studies in Thermal Engineering, 103924.
  2. Wei-Jen Chen; Shoeb-Azam Farooqui; Hwa-Dong Liu; Shan-Xun Lai; Ping-Jui Lin (2024, Mar). Novel MPPT algorithm based on honey bees foraging characteristics for solar power generation systems. Heliyon, e27491.
  3. The residential application of Chain Recooling Energy Recovery Ventilator system in a hot and humid climate
  4. Min-cheng Tu, Wei-Jen Chen (2023, Dec). Field Measurement of the Dynamic Interaction between Urban Surfaces and Microclimates in Humid Subtropical Climates with Multiple Sensors.. Sensors, 9835. (SCI)
  5. Teng, T. P., & Chen, W. J. (2023). A compensation model for an NDIR-based CO2 sensor and its energy implication on demand control ventilation in a hot and humid climate. Energy and Buildings, 281, 112738.
  6. Teng, T. P., & Chen, W. J. (2022). Relative humidity sensor compensation for a portable residential refrigeration dehumidifier. Case Studies in Thermal Engineering, 35, 102096.
  7. Teng, T. P., Chen, W. J., & Chang, C. H. (2021). Enhanced heat dissipation performance of automotive led lamps using graphene coatings. Polymers, 14(1), 50.
  8. Chen, W. J., & Teng, T. P. (2021). A compensation algorithm to reduce humidity ratio error due to asynchronous humidity and temperature sensor time constants. Building and Environment, 190, 107555.
  9. Chen, W. J., Claridge, D. E., & Liao, J. (2018). Using a chain recooling system on buildings in hot and humid climates. Building and Environment, 129, 85-95.
  10. Chen, W. J., Claridge, D. E., & Atif, M. R. (2017). Using internal fan balancing system to avoid excessive pressurization on high rise buildings in hot and humid climates. Energy and Buildings, 152, 86-95.
  11. Chen, W. J., Claridge, D. E., Rohrs, C., & Liao, J. (2016). Modeling to predict positive pressurization required to control mold growth from infiltration in buildings in a hot and humid climate. Building and Environment, 104, 102-113.

名稱 開始日期 結束日期 委託單位 編號 參與身份別
自動化的建築空調空氣分配系統節能設計流程 2024/08/01 2025/07/31 國科會 NSTC 112-2221-E-003 -004 -MY2
自動化的建築空調空氣分配系統節能設計流程 2023/08/01 2024/07/31 國科會 NSTC 112-2221-E-003 -004 -MY2
連環再冷空調系統搭配可控熱管熱回收預冷空調箱之應用 2022/06/01 2023/05/31 科技部(原國科會) MOST 109-2222-E-003 -003 -MY3 主持人
連環再冷空調系統搭配可控熱管熱回收預冷空調箱之應用 2021/06/01 2022/05/31 科技部(原國科會) MOST 109-2222-E-003 -003 -MY3 主持人
連環再冷空調系統搭配可控熱管熱回收預冷空調箱之應用 2020/06/01 2021/05/31 科技部(原國科會) MOST 109-2222-E-003 -003 -MY3 主持人