Enhanced work packaging : design through workface execution

Meeks, Sarah Elizabeth

29 October 2012

All projects employ work packaging to divide the project scope into manageable portions of work for planning and execution. Enhanced work packaging, however, provides an organized and structured approach to planning through the project lifecycle in order to provide the construction work face with everything they need to successfully execute their work. This approach leads to increased field productivity and project predictability in terms of cost and schedule. Construction Industry Institute (CII) Research Team (RT) 272 developed a lifecycle execution model that encompasses recommendations for implementing enhanced work packaging throughout the project lifecycle. The model provides work packaging steps and considerations for each project phase from project definition through construction to system turnover. The model was founded upon industry practices as recorded in literature, team experiences, and through case studies and expert interviews. These recommendations were validated in conjunction with the case studies and through expert review. When properly implemented, enhanced work packaging improves field productivity, cost and schedule predictability, safety performance, and reduced rework, amongst other benefits. / text

Enhanced work packaging

Productivity

Construction

Advanced Work Packaging from project definition through site execution : driving successful implementation of WorkFace Planning

Hamdi, Olfa

30 September 2013

Capital projects use work packaging to divide their projects' scope into manageable portions of work for planning and execution, all to achieve improved productivity and increased predictability. However, currently, no common industry standard for work packaging is widely and uniformly implemented within the North American capital projects industry. As documented by CII RT 272 Phase I (2009-2011), companies have been implementing a number of varied work packaging practices at different stages of the project lifecycle with emphasis on the construction phase. Due to the varied implementation, there is currently little evidence of the benefits of extending work packaging to the Front End Engineering Design (FEED) and the Detailed Engineering (DE) phases. To provide the best current evidence, this thesis describes new findings on Advanced Work Packaging (AWP) as an execution practice, with special emphasis on design activities. This research combines data collection methods such as interviews, observations and document review, as well as surveys. The reader will understand the current industry status on Advanced Work Packaging in terms of levels of implementation as well as evidence of benefits and implementation challenges across the project lifecycle. Documented benefits include productivity improvements on the order of 25% in the field, with corresponding reductions of 10% of total installed cost. Other significant benefits include improved safety, improved productivity, less rework, significant reduction in RFIs and increased stakeholder alignment. Documented AWP implementation challenges include lack of process formulization, persons’ resistance to change and lack of buy-in, stakeholders’ conflict of interest and working culture, incompatibility with some contractual scenarios as well as traditional change management practices. / text

Advanced Work Packaging

Productivity

Planning

Construction

WorkFace Planning

Investigation of the Adaptation of WorkFace Planning at the Organization and Project Levels and the Development of a Mathematical Model to Quantitatively Evaluate the Effectiveness of WorkFace Planning

Peng, Jing

Unknown Date

No description available.

WorkFace Planning

Construction Planning

Lean Construction

Work Packaging

Labour Productivity

An Integrated Simulation-based Planning Approach for Construction Projects

Hong, Jangmi

Unknown Date

No description available.

Construcion management

Simulation-based planning

Cost and schedule integration

Work-packaging model

Work breakdown structure

Risk analysis

Risk breakdown structure