Abstract
The production of Portland cement is well acknowledged as having as significant impact on the environment, accounting for 8% of global CO2 emissions (4bn tonnes per annum). Concrete is the most widely used material in the world and therefore has vast potential to absorb high volumes of waste and by-product materials. These materials can act as partial replacements as supplementary cementitious materials or total replacements and perform as binders in geopolymer concretes. The use of Pulverised Fuel Ash (PFA) from coal-fired electricity generating stations to substitute Ordinary Portland Cement (OPC) is well established. Quantifying the potential environmental benefit of using such materials can be difficult. The life cycle assessment (LCA) methodology, internationally standardised through ISO14040 series, may be used to quantify the environmental impact of products and processes. This paper outlines the use of the LCA methodology to compare the environmental impact of OPC precast concrete products to PFA precast concrete products in a Malaysian context. The four stages of LCA are detailed and consequences of designating materials as a by-product or waste are discussed. A review of other LCA studies completed in Malaysia for the built environment are also presented so as to identify which impact assessment methods are most frequently used.
Highlights
In Malaysia in 2016, over 20 MT of cement was produced [1]
This paper provides an overview of the life cycle assessment (LCA) methodology and its sets out how LCA will be used in the quantification of the environmental impact of Ordinary Portland Cement (OPC) and Pulverised Fuel Ash (PFA) precast concrete products for a Malaysian context
This paper provides an overview of the LCA methodology and its sets out how LCA will be used in the quantification of the environmental impact of OPC and PFA concrete for a Malaysian context
Summary
In Malaysia in 2016, over 20 MT of cement was produced [1]. The environmental impact of cement is well acknowledged with significant emissions from three distinct areas; emissions produced as the raw materials are calcined at high temperatures to form clinker, emissions associated with fuel combustion in the cement kiln and the emissions associated with energy used to operate the cement plant [2].The raw materials used in cement manufacture are rich in calcium carbonate and may be quarried from limestone, chalk or shale deposits. The life cycle assessment (LCA) methodology, internationally standardised through ISO14040 series, may be used to quantify the environmental impact of products and processes.
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