TY - GEN
T1 - Cost-Effective, Multipoint, and User-Friendly Temperature Control System for Environmental Chambers
AU - Luna, Jildardo
AU - Palani, Hevar
AU - Karatas, Aslihan
N1 - Publisher Copyright:
© ASCE 2023.All rights reserved.
PY - 2024
Y1 - 2024
N2 - Controlling and monitoring temperature in environmental chambers is very crucial for testing the thermal performance of building envelope systems. However, off-the-shelf options are costly, non-customized, and hard to maintain. Therefore, the goal of this study is to develop a cost-effective, scalable, and user-friendly temperature control module that is capable of monitoring, analyzing, and controlling the temperature in environmental chambers. The PID temperature control module was developed in Python by using an open-source library coupled with an Arduino Uno Rev 3 that interacts with a digital dimmer meant for alternating current. The system was configured to dim incandescent lights which were programmed to increase or decrease the temperature in a confined chamber. Moreover, this module was designed and validated by applying it on an environmental chamber to control and monitor its temperature, and thus the module's design accuracy and efficiency. The developed module can help future users perform built envelope thermal performance analysis with minimum cost and least design effort.
AB - Controlling and monitoring temperature in environmental chambers is very crucial for testing the thermal performance of building envelope systems. However, off-the-shelf options are costly, non-customized, and hard to maintain. Therefore, the goal of this study is to develop a cost-effective, scalable, and user-friendly temperature control module that is capable of monitoring, analyzing, and controlling the temperature in environmental chambers. The PID temperature control module was developed in Python by using an open-source library coupled with an Arduino Uno Rev 3 that interacts with a digital dimmer meant for alternating current. The system was configured to dim incandescent lights which were programmed to increase or decrease the temperature in a confined chamber. Moreover, this module was designed and validated by applying it on an environmental chamber to control and monitor its temperature, and thus the module's design accuracy and efficiency. The developed module can help future users perform built envelope thermal performance analysis with minimum cost and least design effort.
UR - https://www.scopus.com/pages/publications/85184100165
U2 - 10.1061/9780784485248.098
DO - 10.1061/9780784485248.098
M3 - Conference contribution
AN - SCOPUS:85184100165
T3 - Computing in Civil Engineering 2023: Resilience, Safety, and Sustainability - Selected Papers from the ASCE International Conference on Computing in Civil Engineering 2023
SP - 815
EP - 823
BT - Computing in Civil Engineering 2023
A2 - Turkan, Yelda
A2 - Louis, Joseph
A2 - Leite, Fernanda
A2 - Ergan, Semiha
PB - American Society of Civil Engineers (ASCE)
T2 - ASCE International Conference on Computing in Civil Engineering 2023: Resilience, Safety, and Sustainability, i3CE 2023
Y2 - 25 June 2023 through 28 June 2023
ER -