3D Printed Green Walls (2026-01)¶
Kazemian Mona, Rogers Carl
Contribution - Computing in Civil Engineering, pp. 224-233
Abstract
Sustainability in urban environments requires innovative design solutions that better connect buildings with natural systems. Green walls offer proven environmental and aesthetic benefits as a sustainable design approach, while advances in 3D printing technology create new opportunities for eco-friendly solutions. This research explores combining 3D printing with green walls to create living systems that improve plant growth and strengthen connections between people and nature. The findings show how effectively 3D printing can adapt and enhance green wall systems. By linking 3D printing methods with sustainable design principles, this study presents a balanced approach to blend natural and built environments. The results demonstrate how 3D-printed green walls can transform indoor spaces by improving their performance as living systems.
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BibTeX
@inproceedings{kaze_roge.2026.3PGW,
author = "Mona Kazemian and Carl A. Rogers",
title = "3D Printed Green Walls: Enhancing Living Systems Through Digital Fabrication",
doi = "10.1061/9780784486443.026",
year = "2026",
pages = "224--233",
booktitle = "Computing in Civil Engineering: Resilient, Robotic, and Educational Systems",
editor = "Amirhosein Jafari and Yimin Zhu",
}
Formatted Citation
M. Kazemian and C. A. Rogers, “3D Printed Green Walls: Enhancing Living Systems Through Digital Fabrication”, in Computing in Civil Engineering: Resilient, Robotic, and Educational Systems, 2026, pp. 224–233. doi: 10.1061/9780784486443.026.
Kazemian, Mona, and Carl A. Rogers. “3D Printed Green Walls: Enhancing Living Systems Through Digital Fabrication”. In Computing in Civil Engineering: Resilient, Robotic, and Educational Systems, edited by Amirhosein Jafari and Yimin Zhu, 224–33, 2026. https://doi.org/10.1061/9780784486443.026.