Abstract:
The energy consumption of affordable housing industry plays a vital role in the environmental
sustainability, waste generation and energy consumption. The development of sustainable
housing construction methodology helps its country’s economic development and sustainable
development. Wall and roof are the most significant building component in a dwelling unit.
The walling materials can determine the cost of the building as well as the total life cycle cost
of a dwelling unit. In this study, the total life cycle cost of a basic dwelling unit in Sri Lanka,
made of mostly available walling materials such as Brick, Hollow cement block, and Cabook,
the Mud concrete blocks were calculated by using energy accounting hierarchical structure.
The life cycle cost incurred due to change in above-mentioned walling materials were
calculated and measured. Additionally, total LCC compared and analyzed.
The results show that mud concrete block is the most suitable walling material. The brick has
the highest account for the embedded energy. The hollow cement block is the worse building
materials in tropics and its carbon footprint is comparatively higher. Even though the brick
has higher embedded energy and construction cost, in a long run brick is less expensive than
hollow cement block and Cabook walling material. Concluding, mud concrete block is
comparatively most sustainable walling material for building affordable housing in tropics.
Citation:
Udawattha, C., & Halwatura, R. (2017). Life cycle cost of different Walling material used for affordable housing in tropics. Case Studies in Construction Materials, 7, 15–29. https://doi.org/10.1016/j.cscm.2017.04.005