Balancing crop production and energy harvesting in organic solar-powered greenhouses
Eshwar Ravishankar, Melodi Charles, Yuan Xiong, Reece Henry, Jennifer Swift, Jeromy James Rech, John Calero, Sam Cho, Ronald E. Booth, Taesoo Kim, Alex H. Balzer, Yunpeng Qin, Carr Hoi Yi Ho, Franky So, Natalie Stingelin, Aram Amassian, Carole H. Saravitz, Wei You, Harald Ade, Heike Sederoff, Brendan O’Connor
Abstract
Adding semitransparent organic solar cells (ST-OSCs) to a greenhouse structure enables simultaneous plant cultivation and electricity generation, thereby reducing the greenhouse energy demand. However, there is a need to establish the impact of such systems on plant growth and indoor climate and to optimize system tradeoffs. In this work, we consider plant growth under OSCs and system-relevant design. We evaluate the growth of red leaf lettuce under ST-OSC filters and compare the impact of three different OSC active layers that have unique transmittance. We find no significant differences in the fresh weight and chlorophyll content of the lettuce grown under these OSC filters. In addition, OSCs provide an opportunity for further light and thermal management of the greenhouse through device design and optical coatings. The OSCs can thus affect plant growth, power generation, and thermal load of the greenhouse, and this design trade space is reviewed and exemplified.