Total spending on building maintenance in the UK has increased by 66% in the last 10 years (BMI, 1996). Total expenditure on maintenance in 1997 was £39.8 billion (BMI, 1998). Any significant reduction in building maintenance costs will therefore have a real impact on the national economy. This paper reports the results of a research project supported by the EPSRC at the University of Dundee, which sought to quantify the benefits of applying integrated logistics support (ILS) to the development of cost-effective maintenance strategies for existing building stock. ILS is a managerial and technical approach that ensures that the client/user will receive a building that will meet performance requirements (durability, reliability, maintainability, performance, etc.) at the lowest whole life cost. The principles of ILS are described and a systematic framework for selecting the most appropriate and cost-effective maintenance task for each individual element in a building is developed. The decision logic processes for identifying each failure consequence and for selecting the most applicable and cost-effective maintenance task are derived. The maintenance cost savings arising from the application of two ILS techniques - failure modes and effects analysis, and reliability centred maintenance - to a sample of 18 properties were calculated to be 18.5%.
[1]
J. Moubray.
Reliability-centred maintenance
,
1995
.
[2]
John Crocker,et al.
Reliability, Maintenance and Logistic Support: - A Life Cycle Approach
,
2000
.
[3]
Alan Spedding,et al.
CIOB Handbook of Facilities Management
,
1994
.
[4]
Mohamed A. El-Haram,et al.
Practical application of RCM to local authority housing: a pilot study
,
2002
.
[5]
Ronald T. Anderson,et al.
Reliability-centered maintenance: management and engineering methods
,
1990
.
[6]
Benjamin S. Blanchard,et al.
Logistics engineering and management
,
1986
.
[7]
J. Moubray.
Reliability-Centered Maintenance
,
1991
.