Abstract
Various tools that assess life cycle CO2 (LCCO2) emissions are currently being developed throughout the international community. However, most building LCCO2 emissions assessment tools use a bill of quantities (BOQ), which is calculated after starting a building’s construction. Thus, it is difficult to assess building LCCO2 emissions during the early design phase, even though this capability would be highly effective in reducing LCCO2 emissions. Therefore, the purpose of this study is to develop a Building Simplified LCCO2 emissions Assessment Tool (B‐SCAT) for application in the early design phase of low‐carbon buildings in South Korea, in order to facilitate efficient decision‐making. To that end, in the construction stage, the BOQ and building drawings were analyzed, and a database of quantities and equations describing the finished area were conducted for each building element. In the operation stage, the “Korea Energy Census Report” and the “Korea Building Energy Efficiency Rating Certification System” were analyzed, and three kinds of models to evaluate CO2 emissions were proposed. These analyses enabled the development of the B‐SCAT. A case study compared the assessment results performed using the B‐SCAT against a conventional assessment model based on the actual BOQ of the evaluated building. These values closely approximated the conventional assessment results with error rates of less than 3%.
Highlights
Since CO2 reduction has been globally established as a paradigm of sustainable development, governments all over the world are competitively announcing mid- to long-term goals for the reduction of CO2 emissions [1,2]
The purpose of this study was to develop a Building Simplified LCCO2 emissions Assessment Tool (B-SCAT) that is applicable in the early design phase for low-carbon building design
The conclusions of this study are as follows: (1) After separating the life cycle of a building into various stages, including construction, operation, and end-of-life, a simplified life cycle CO2 (LCCO2) emissions assessment model and B-SCAT were developed for application to the early design phase of buildings
Summary
Since CO2 reduction has been globally established as a paradigm of sustainable development, governments all over the world are competitively announcing mid- to long-term goals for the reduction of CO2 emissions [1,2]. Tools for evaluating LCCO2 emissions of buildings starting in the early design phase are being developed to reduce these emissions [20,21,22], given that a building’s CO2 emissions determined during the early design phase continue to affect the building for the entirety of its life cycle [23,24]. CO2 emissions assessment tools such as SUSB-LCA [26], K-LCA [27], BEGAS [28], and BEGAS 2.0 [29], in order to meet global requirements. Fter the construction of a building begins [35,36] These constraints complicate asSsoeussthmKeonrtesa mhaas dalesodduervienlogptehdedeivaerrlsye dbueisldiginngpChOa2seem, iwsshioenns aLsCseCssOm2enetmtoioslssisouncsh caasnSUbSeBe‐ fficiently reduced [L3C7A,38[2].6], K‐LCA [27], BEGAS [28], and BEGAS 2.0 [29], in order to meet global requirements.
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