Many construction processes include installation of unique materials in specific locations in the facility being built: materials and locations must match before installation can take place. Mismatches due to delay and uncertainty in supplying materials or completing prerequisite work at those locations hamper field productivity. This is illustrated here using a model of a materials-management process with a matching problem that typifies fast-track process-plant projects. The uniqueness of materials and locations combined with the unpredictability in duration and variation in execution quality of various steps in the supply chain allow for different ways to sequence material delivery and work area completion. Several alternatives are described. Their impact on process execution is illustrated by means of probabilistic process models. One model reflects total lack of coordination between delivery and work area completion prior to the start of construction; a second one describes perfect coordination. The corresponding materials staging buffers and construction progress are plotted based on output from discrete-event simulation models. A third probabilistic model then illustrates the use of the lean construction technique called pull-driven scheduling. Real-time feedback regarding the status of progress on site is provided to the fabricator off site so process steps can be re-sequenced opportunistically. This yields smaller buffers and earlier project completion and, when properly accounted for, increased productivity.
[1]
Julio C. Martinez,et al.
Stroboscope: State and resource based simulation of construction processes.
,
1996
.
[2]
大野 耐一,et al.
Toyota production system : beyond large-scale production
,
1988
.
[3]
H. Randolph Thomas,et al.
Impact of Material Management on Productivity—A Case Study
,
1989
.
[4]
Leonhard E. Bernold,et al.
Placement‐Oriented Design and Delivery of Concrete Reinforcement
,
1993
.
[5]
Gregory A. Howell,et al.
Interaction between subcycles: one key to improved methods
,
1993
.
[6]
Norman Bodek,et al.
Toyota Production System: Beyond Large-Scale Production
,
1988
.
[7]
Iris D. Tommelein.
Models of Lean Construction Processes: Example of Pipe-Spool Materials Management
,
1997
.
[8]
James P. Womack,et al.
Lean Thinking: Banish Waste and Create Wealth in Your Corporation
,
1996
.
[9]
William J. O'Brien,et al.
Construction supply-chains: Case study, integrated cost and performance analysis
,
1997
.
[10]
Lauri Koskela,et al.
Application of the New Production Philosophy to Construction
,
1992
.