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Hidden phosphorus flows related with non-agriculture industrial activities: A focus on steelmaking and metal surface treatment

Author

Listed:
  • Matsubae, Kazuyo
  • Webeck, Elizabeth
  • Nansai, Keisuke
  • Nakajima, Kenichi
  • Tanaka, Mikiya
  • Nagasaka, Tetsuya

Abstract

Due to the impact of increasing global demand for high-grade steel for a variety of applications at a time when high grade iron ore reserves are becoming depleted, the removal of impurities, and especially phosphorus, has become essential. Demand in the rapidly growing car industry, in particular, is increasing pressure on steelmakers to provide high quality steel. The dephosphorization step presents new opportunities to steelmakers: besides producing high-quality steels not prone to cracking or corrosion, and improving production efficiency, steelmakers are presented with the opportunity to recover phosphorus and market it as a value-added product. Another industry with potential to recover P as a secondary product is the surface treatment industry. Surface treatment and the galvanization of metal products requires phosphoric acid and generates waste containing phosphorus, which is typically not well recovered or recycled. In this study, we focus on the potential of steelmaking slag and waste sludge from nickel plating and metal surface treatment processes as non-traditional phosphorus resources. An MFA on the hidden phosphorus flow behind global iron ore trade showed that, that the hidden flow of phosphorus from the three major iron ore export countries to China alone was 331kt in 2013, which is equivalent to 1.7% of the global consumption of P in fertilizers consumed that year. In 2013, 3.6 kilo ton of phosphorus was wasted in acid waste from the metal surface treatment industry.

Suggested Citation

  • Matsubae, Kazuyo & Webeck, Elizabeth & Nansai, Keisuke & Nakajima, Kenichi & Tanaka, Mikiya & Nagasaka, Tetsuya, 2015. "Hidden phosphorus flows related with non-agriculture industrial activities: A focus on steelmaking and metal surface treatment," Resources, Conservation & Recycling, Elsevier, vol. 105(PB), pages 360-367.
    • Handle: RePEc:eee:recore:v:105:y:2015:i:pb:p:360-367
    DOI: 10.1016/j.resconrec.2015.10.002
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    References listed on IDEAS

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    1. Andrea E. Ulrich & Ewald Schnug, 2013. "The Modern Phosphorus Sustainability Movement: A Profiling Experiment," Sustainability, MDPI, vol. 5(11), pages 1-23, October.
    2. Jeong, Yong-Soo & Matsubae-Yokoyama, Kazuyo & Kubo, Hironari & Pak, Jong-Jin & Nagasaka, Tetsuya, 2009. "Substance flow analysis of phosphorus and manganese correlated with South Korean steel industry," Resources, Conservation & Recycling, Elsevier, vol. 53(9), pages 479-489.
    3. Eiji Yamasue & Kazuyo Matsubae & Kenichi Nakajima & Seiji Hashimoto & Tetsuya Nagasaka, 2013. "Using Total Material Requirement to Evaluate the Potential for Recyclability of Phosphorous in Steelmaking Dephosphorization Slag," Journal of Industrial Ecology, Yale University, vol. 17(5), pages 722-730, October.
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    5. Kazuyo Matsubae‐Yokoyama & Hironari Kubo & Kenichi Nakajima & Tetsuya Nagasaka, 2009. "A Material Flow Analysis of Phosphorus in Japan," Journal of Industrial Ecology, Yale University, vol. 13(5), pages 687-705, October.
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    7. Elizabeth Webeck & Kazuyo Matsubae & Tetsuya Nagasaka, 2015. "Phosphorus requirements for the changing diets of China, India and Japan," Environmental Economics and Policy Studies, Springer;Society for Environmental Economics and Policy Studies - SEEPS, vol. 17(3), pages 455-469, July.
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