Abstract
For decades, among other industries, the construction sector has accounted for high energy consumption and emissions. As the energy crisis and climate change have become a growing concern, mitigating energy usage is a significant issue. The operational and end of life phases are all included in the building life cycle stages. Although the operation stage accounts for more energy consumption with higher carbon emissions, the embodied stage occurs in a time-intensive manner. In this paper, an attempt has been made to review the existing methods, aiming to lower the consumption of energy and carbon emission in the construction buildings through optimizing the construction processes, especially with the lean construction approach. First, the energy consumption and emissions for primary construction materials and processes are introduced. It is followed by a review of the structural optimization and lean techniques that seek to improve the construction processes. Then, the influence of these methods on the reduction of energy consumption is discussed. Based on these methods, a general algorithm is proposed with the purpose of improving the construction processes’ performance. It includes structural optimization and lean and life cycle assessments, which are expected to influence the possible reduction of energy consumption and carbon emissions during the execution of construction works.
Highlights
The energy consumption and carbon emission of steel-based structures are 40% higher than the other type of buildings
The use of tools, such as Building Information Model (BIM) and energy simulation software, create a balance between the embodied energy consumption and the operational energy used in the construction phase
By analyzing the methods and outcomes of the previously mentioned studies, a general algorithm is proposed that aims to optimize the environmental impacts by reducing the energy consumption and carbon emissions of the construction processes
Summary
The consequences of global warming have seriously threatened lives on earth; the reduction of energy consumption and carbon emissions has received international attention [3,4,5]. The International Energy Agency (IEA) provided the information as illustrated in Figures 2 and 3, showing that, from 1971 to 2018, the world total energy consumption increased by about 250%. It can be observed that the total energy consumption in China has significantly grown compared to other regions. Other regions with the highest final energy consumptions are the United States, India, Federation of Russia and Japan. Industrial final consumption in China is substantially higher compared to other regions. While the transportation sector in the United States has rather higher energy consumption. During the same period, the World CO2 emission from fuel combustion is almost doubled with notable growth in the region of China [11]
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