Abstract
The building sector accounts for 19% of Australia's energy consumption and around 23% of the greenhouse gas emissions. In 2005, commercial buildings in Australia were responsible for 10% or 26 megatonnes (Mt) of the nation's greenhouse gas emissions. They are two effective ways to reduce the building sector's emissions, namely constructing new energy efficient buildings or retrofitting existing buildings. Due to the life expectancy of existing building stock the greatest reduction in emissions before 2030 could be achieved through retrofits. Building performance assessment and evaluation uses predictive modelling method to investigate and evaluate building performance in energy demands, thermal occupant comfort, indoor air quality, building retrofit options and many other related environmental and wellbeing aspects. This paper discussed the use of building performance simulation software to investigate the impacts of various retrofit options have onto energy performance of existing commercial buildings with heritage values in Australia. The research explores the use of thermal and airflow modelling in assisting understanding of building energy performance with various retrofit options applied to existing commercial buildings. The finding highlights the capabilities of building performance simulation software in decision making for building performance investigations.
Highlights
The building sector contributed to around 19% of Australia's energy consumption and around 23% of the greenhouse gas (GHG) emissions [1]
There are a total of 16 intervention strategies applied to the case study buildings for the project but this paper only report on the top five (5) interventions that have the most significant impacts on the energy performance of the case study buildings
Equipment and lighting contributed around a quarter each to the total annual operational energy usage
Summary
The building sector contributed to around 19% of Australia's energy consumption and around 23% of the greenhouse gas (GHG) emissions [1]. Commercial buildings in Australia contributed to around 10% or 26 megatonnes (Mt) of the nation's GHG emissions in 2005. A number of publications highlight the need for more comprehensive information with respect to existing non-domestic building stock typology, distribution and energy use in order to inform future policy formulation [3,4]. Energy modelling was used to explore the operational energy use of the case study buildings in their existing state (base case) and in case when energy efficiency measures through selected retrofits were implemented. This paper investigates the energy performance for two case study buildings with selected retrofits’ impacts. The paper attempts to identify lessons learnt and strategies that could be used to improve building simulation results in the future
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