Factor Analysis on Criteria Affecting Lean Retrofit for Energy Efficient Initiatives in Higher Learning Institution Buildings

• Main Authors: Abdul Hamid, A.R (Author), Abidin, N.I (Author), Aminuddin, E. (Author), Ay Lie H. (Author), Hardjasaputra H. (Author), Munikanan, V. (Author), Park J.-W (Author), Sahamir, S.R (Author), Shamsuddin, S.M (Author), Thayaalan P. (Author), Zakaria, R. (Author)
• Format: Article
• Language: English
• Published: EDP Sciences 2017
• Subjects: Architectural design; Buildings; Daylighting; Energy efficiency; Energy efficient building; Energy utilization; Factor analysis; Green building design; Higher learning institutions; Method of analysis; Mode of operations; Multivariant analysis; Principal component analysis; Principal Components; Questionnaire surveys; Retrofitting; Surveys; Varimax rotations
• Online Access: View Fulltext in Publisher; View in Scopus

 The expansion of Higher Learning Institution (HLI) is a global concerns on energy demand due to campus act like a small city. Intensive mode of operation of a building is correlated to the energy utilization. Improvement in the current energy efficiency is crucial effort to minimize the environmental effect through minimisation of energy in operation by retrofitting and upgrade the existing building system or components to be more efficient. Basically, there are three recommended steps for the improvement known as lean initiatives, green technology and clean energy in response to becoming zero energy solutions for building. The deliberation of this paper is aimed to highlight the criteria affecting in retrofitting of existing building in HLI with lean initiatives in order to achieve energy efficiency and reduction of energy comsumption. Attention is devoted to reviewing the lean energy retrofitting initiatives criteria for daylighting (side lighting), daylighting (skylight) and glazing. The questionnaire survey was employed and distributed to the architects who has an expertise in green building design. Factor analysis was adopted as a method of analysis by using Principal Component with Varimax Rotation. The result is presented through summarizing the sub-criteria according to its importance with a factor loading 0.50 and above. The result found that majority of the criteria developed achieved the significant factor loading value and in accordance with the protocal of analysis. In conclusion the results from analysis of this paper assists the stakeholders in assessing the significant criteria based on the desired lean energy retrofitting initiatives and also provides a huge contribution for future planning improvement in existing buildings to become an energy efficient building. © The Authors, published by EDP Sciences, 2017.