Abstracts – Browse Results
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Ahmad, T and Aibinu, A A (2017) Project delivery attributes influencing green building project outcomes: A review and future research directions. Built Environment Project and Asset Management, 7(05), 471-89.
Alashwal, A M and Chew, M Y (2017) Simulation techniques for cost management and performance in construction projects in Malaysia. Built Environment Project and Asset Management, 7(05), 534-45.
Almarri, K and Boussabaine, H (2017) Interdependency of the critical success factors and ex-post performance indicators of PPP projects. Built Environment Project and Asset Management, 7(05), 546-56.
Ekanayake, E M A C and Sandanayake, Y G (2017) LIVE approach: Lean integrated value engineering for construction industry. Built Environment Project and Asset Management, 7(05), 518-33.
Liyanage, C, Dias, N, Amaratunga, D and Haigh, R (2017) Current context of transport sector in south Asia: Recommendations towards a sustainable transportation system. Built Environment Project and Asset Management, 7(05), 490-505.
Victoria, M F, Perera, S, Davies, A and Fernando, N (2017) Carbon and cost critical elements: A comparative analysis of two office buildings. Built Environment Project and Asset Management, 7(05), 460-70.
- Type: Journal Article
- Keywords: office building,capital cost,carbon hotspots,cost hotspots,element rates,embodied carbon
- ISBN/ISSN:
- URL: https://doi.org/10.1108/BEPAM-12-2016-0086
- Abstract:
Purpose The purpose of this paper is to identify and compare cost and carbon critical elements of two office buildings, and to help achieve an optimum balance between the capital cost (CC) and embodied carbon (EC) of buildings. Design/methodology/approach Case study approach was employed to study cost and carbon critical elements of two office buildings as it allows an in-depth and holistic investigation. Elemental estimates of CC and EC were prepared from BoQs of the two buildings by obtaining rates from the UK Building Blackbook. Pareto principle (80:20 rule) was used to identify carbon and cost critical elements of the two buildings, and the significance hierarchies of building elements were compared. Findings Substructure, frame and services were identified as both carbon and cost critical elements responsible for more than 70 per cent of the total CC and EC of both buildings. Stairs and ramps, internal doors and fittings, furnishings and equipment were identified to be the least carbon- and cost-significant elements contributing less than 2 per cent of total CC and EC in both buildings. The hierarchy of cost and carbon significance varies between buildings due to the difference in the specification and design. Originality/value The increasing significance of dual currency (cost and carbon) demands cost and carbon management during the early stages of projects. Hence, this paper suggests that focusing on carbon and cost-intensive building elements is a way forward to keep both cost and carbon under control during the early stages of projects.
Zamenian, H, Choi, J, Sadeghi, S A and Naderpajouh, N (2017) Systematic approach for asset management of urban water pipeline infrastructure systems. Built Environment Project and Asset Management, 7(05), 506-17.