Abstract
PurposeTo support the needs of downstream users of zircon sand and other industry stakeholders, the Zircon Industry Association (ZIA) conducted an industry-wide life cycle assessment (LCA) with the aim to quantify the potential environmental impacts of zircon sand production, from mining to the separation of zircon sand (zirconium silicate or ZrSiO4). This novel work presents the first, globally representative LCA dataset using primary data from industry. The study conforms to relevant ISO standards and is backed up by an independent critical review.MethodsData from ZIA member companies representing 10 sites for the reference year 2015 were collected. In total, more than 77% of global zircon sand production was covered in this study. All relevant mining routes (i.e. wet and dry mining) were considered in the investigation, as well as all major concentration and separation plants in major zircon sand–producing regions of the world (i.e. Australia, South Africa, Kenya, Senegal and the USA). As it is common practise in the metal and mining industry, mass allocations were applied with regard to by-products (Santero and Hendry, Int J Life Cycle Assess 21:1543–1553, Santero and Hendry 2016) where economic allocation is only applied if high-valued metals like PGMs are separated with a process flow. A sensitivity analysis was used to understand the relevance of the major contributing effect of the life cycle impact assessment (LCIA) results, power consumption.Results and discussionIt was shown that mining is the main contributor to all impact categories (between 65 and 90% compared with the mineral separation plant). For example, primary energy demand (PED) and global warming potential (GWP) contribute 76% and 70%, respectively, to the production of 1 kg of zircon sand. PED for 1 kg of zircon sand is calculated to be 4 MJ, whereas the GWP is 0.32 kg CO2 equivalent per kg of zircon sand. The main influencing factor in the mining process is electricity consumption.ConclusionsIn conformity with relevant ISO standards, and backed up by a critical review, this LCA quantified the potential environmental impacts associated with the production of the zircon sand (ZrSiO4). With this study, a sound dataset for downstream users of zircon sand has been provided. It is the first LCA dataset of the ZIA.
Highlights
In view of the ongoing societal debate on energy efficiency and climate change, life cycle assessment (LCA) data for products and processes play an increasingly important role in material selection and product development (e.g. Finkbeiner et al 2006)
Zircon is traded in sand or milled powder forms; the specifications for which vary depending on the application
The results shown here are a key selection of inventory data which are most common in the LCA community as well as closely related to the production technologies under research
Summary
In view of the ongoing societal debate on energy efficiency and climate change, life cycle assessment (LCA) data for products and processes play an increasingly important role in material selection and product development (e.g. Finkbeiner et al 2006). In view of the ongoing societal debate on energy efficiency and climate change, life cycle assessment (LCA) data for products and processes play an increasingly important role in material selection and product development This mineral substance is a very hard, highly refractive, birefringent refractory material. Zircon may contain traces of uranium and thorium (up to 1%) in the crystal structure, along with hafnium which is not considered a by-product in this study since no data were available, and is considered a NORM (naturally occurring radioactive material) (World Nuclear Association 2014). Zircon is traded in sand or milled powder forms; the specifications for which vary depending on the application (e.g. as an opacifier in ceramic tiles, zircon sand is milled to a fine powder)
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