Open AccessEnergy optimization in modular buildings made from 3d printing
Author(s) -
Sanee M. Ebrahimzadeh Sepasgozar,
Tao Huang,
C. Wang,
Faham Tahmasebinia
Publication year - 2017
Publication title -
modular and offsite construction (moc) summit proceedings
Language(s) - English
Resource type - Journals
ISSN - 2562-5438
DOI - 10.29173/mocs68
Subject(s) - modular design , installation , architectural engineering , civil engineering , energy consumption , process (computing) , 3d printing , engineering , modular construction , construction engineering , computer science , mechanical engineering , electrical engineering , operating system
Off-site construction involves the process of designing, fabricating, transporting and installing building elements for rapid site assembly to a greater degree of finish than in other types of on-site construction methods. However, some pieces of the building depending on the geometry, materials and weight can be produced using 3D printing on-site. Energy consumption can be modified based on the available resources on construction site such as labours, factories, and materials. This study focuses on energy optimisation based on simulating site available resources when 3D printing technology is available. The paper compares three proposed different cases including balconies are entirely concrete, balcony Containers are replaced with soil and a shade factor was applied as well as case 2 with the added effect of evapotranspiration.