A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Building management system for sustainable built environment in Sri Lanka
– The purpose of this paper is to investigate the contribution of building management system (BMS) towards a sustainable built environment.
– The paper is based on the findings of a comprehensive literature survey, preliminary survey and a structured questionnaire survey. Quantitative data were analysed using a relative importance index. Content analysis was used for the qualitative data analysis.
– The results show that identifying user requirements, identifying BMS features, designing BMS, installation and commissioning, and operation and maintenance are the key steps in the BMS implementation process. High cost, lack of knowledge on BMS, unavailability of service and maintenance, and inadequate performance of BMS vendors were highlighted as barriers when adopting a BMS. Energy efficiency, reduction of operation and maintenance cost, occupant satisfaction, productivity, fault diagnosis, thermal comfort, indoor air quality, emergency response and level of controllability of building systems are some of the significant BMS functions that accomplish economic, environment and social sustainability pillars.
– This study increases the awareness on functionality of a BMS and its potential contribution towards a sustainable built environment.
– The study develops strong ties between BMS contribution and sustainability where built environment professionals could use the developed decision support model towards a sustainable built environment through the application of BMS.
Building management system for sustainable built environment in Sri Lanka
– The purpose of this paper is to investigate the contribution of building management system (BMS) towards a sustainable built environment.
– The paper is based on the findings of a comprehensive literature survey, preliminary survey and a structured questionnaire survey. Quantitative data were analysed using a relative importance index. Content analysis was used for the qualitative data analysis.
– The results show that identifying user requirements, identifying BMS features, designing BMS, installation and commissioning, and operation and maintenance are the key steps in the BMS implementation process. High cost, lack of knowledge on BMS, unavailability of service and maintenance, and inadequate performance of BMS vendors were highlighted as barriers when adopting a BMS. Energy efficiency, reduction of operation and maintenance cost, occupant satisfaction, productivity, fault diagnosis, thermal comfort, indoor air quality, emergency response and level of controllability of building systems are some of the significant BMS functions that accomplish economic, environment and social sustainability pillars.
– This study increases the awareness on functionality of a BMS and its potential contribution towards a sustainable built environment.
– The study develops strong ties between BMS contribution and sustainability where built environment professionals could use the developed decision support model towards a sustainable built environment through the application of BMS.
Building management system for sustainable built environment in Sri Lanka
Kumara, W.H.C.D (author) / Waidyasekara, K.G.A.S. (author) / Weerasinghe, R.P.N.P. (author)
Built Environment Project and Asset Management ; 6 ; 302-316
2016-07-04
15 pages
Article (Journal)
Electronic Resource
English