Lean construction

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Construction industries are known for working in projects, and those projects are today complex, uncertain and quick CUQ-projects (Koskela, 2002). They are also known for having lower productivity and higher wastes than other industries (Forbes and Ahmed, 2011). Lean construction thinking started in the middle of 1990 as a way handle these CUQ-projects. Lean production is well known within manufacturing industries to increase productivity and reduce wastes, but the lean production thinking cannot directly be applied to the construction industry. The reason is that there is a list of factors that differentiates the construction industry from manufacturing industries, e.g. duration of projects, ((Shang and Low, 2014)).

There are two different interpretations of lean construction. (1) Lean Construction is about how Lean Production methods can be applied to construction, and (2) Lean Construction is a new, theory-based methodology for construction inspired of Lean Production (Koskela, 2002). The second theory is the most common interpretation and also mayor interpretation used within the International Group for Lean Construction.

Lean Construction is based on three views in production theory, Transformation, Flow and Value (TFV). These three views do not compete with each other but rather are complementary. All systems that pursue the TFV goals are in a way lean systems, but some are systems are better than others (Koskela, 2002).



Contents

Development history

The first signs of lean thinking in the construction industry goes back to the 1890s. Frank Gilbreth saw potentials in how to apply manufacturing approaches into construction in order to improve speed and labour efficiency. He saw opportunities in how to reduce what in lean thinking in called wastes. Gilbreth developed a body of knowledge that is considered to be a part of the body of knowledge that formed the field of industrial engineering (Modern Construction Lean Project Delivery and Integrated Practices p52).

The construction industry had a slower productivity growth than other industries in the twentieth century. Historically the industry had build on the Master Builder concept were one entity had responsibility for both design and construction. During the twentieth century the industry converted from Master Building concept to be more fragmented. Designers developed contracts that reduced their construction responsibility which led to more costly and counterproductive behaviors due to adversarial relations and mistrust. Studies from the 1990s and 2000s showed that hours spend productivity were very low and value-added time even lower, there is thus much room for improvement.

In the early 1990s Lauri Koskela looked, like Gilbreth did hundred years earlier, to the manufacturing industry for solutions and directions for the construction industry. Koskela specifically looked at Toyota's successful production system (TPS) and lean production and stated the most successful manufacture methods where based on the Just In Time (JIT) concept (Koskela 1992). Furthermore, Koskela introduced the Transformation, Flow and Value (TFV) theory which is derived from earlier theories regarding production (Koskela 2002).

Koskelas work is the foundation of lean construction, and resulted in a conference in Helsinki, Finland 1993 where the expression "Lean Construction" was decided to be used and the International Group for Lean Construction (IGLC) was founded. Subsequently Glenn Ballard and Greg Howell co-founded the Lean Construction Institute (LCI) in 1997. Studies performed by members from both IGLC and LCI led to Ballard's development of the The Last Planner System (LPS) and The Lean Project Delivery System (LPDS) (Modern Construction Lean Project Delivery and Integrated Practices p53-55).

What is Lean Construction?

Lean construction is derived from the success of lean thinking within manufacturing industries.


TFV (The foundations of lean construction och Lean construction pdf)


Major concepts

  • Different views on lean construction

Lean Project Delivery System

Last planner system

Target Value Design

  • Kanban and production smoothing

Key elements

BIM

Big Room

Related material

  • Comparable standards / recommendations
  • Additional related material

Discussion

Strength and weaknesses/criticism

  • Controversial points==

Integration / relationship to other material

  • Sustainable development

Implementation advice

  • How can it be implemented in construction industries
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