Recycling Electric Arc Furnace Slag into Fertilizer: Effects of “Waste Product” on Growth and Physiology of the Common Bean (Phaseolus vulgaris L.)

Radić, Sandra; Sandev, Dubravka; Maldini, Krešimir; Bok, Valerija Vujčić; Lepeduš, Hrvoje; Domijan, Ana-Marija

doi:10.3390/agronomy12092218

Cited by 9 publications

(1 citation statement)

References 34 publications

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“…Furthermore, the slag generated from the proposed technology can be employed on farmland to improve soil properties. Slag is a valuable source of Fe, Mg, N, P, and K, which are essential nutrients for agriculture and act as fertilizer [89]. Producing slag through DSP plasma pyrolysis will increase the supply in the market, potentially reducing costs.…”

Section: Techno-economic Performance Of Discarded Photovoltaic Solar ...mentioning

confidence: 99%

Sustainable Treatment of Spent Photovoltaic Solar Panels Using Plasma Pyrolysis Technology and Its Economic Significance

Chiang,

Han,

Claire

et al. 2024

Clean Technol.

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In the past few decades, the solar energy market has increased significantly, with an increasing number of photovoltaic (PV) modules being deployed around the world each year. Some believe that these PV modules have a lifespan of around 25–30 years. As their lifetime is limited, solar panels wind up in the waste stream after their end of life (EoL). Several ecological challenges are associated with their inappropriate disposal due to the presence of hazardous heavy metals (HMs). Some studies have reported different treatment technologies, including pyrolysis, stabilization, physical separation, landfill, and the use of chemicals. Each proposed treatment technique pollutes the environment and underutilizes the potential resources present in discarded solar panels (DSPs). This review recommends thermal plasma pyrolysis as a promising treatment technology. This process will have significant advantages, such as preventing toxic HMs from contaminating the soil and groundwater, reducing the amount of e-waste from DSPs in an environmentally friendly and economical way, and allows the utilization of the valuable resources contained in EoL photovoltaic solar panel modules by converting them into hydrogen-rich syngas to generate thermal energy, electricity, and non-leachable slag that can be used as an additive in other treatment processes or as a conditioner to improve soil properties. However, plasma pyrolysis uses a high temperature to break down waste materials, a challenge which can be offset by the integration of this process in anaerobic digestion (AD), as the slag from plasma pyrolysis can be used as an additive in AD treatments to produce high yields of biogas and improve nutrient recovery. Moreover, the produced energy from both processes can operate the entire plant in which they take place and increase the net energy production, a resource which can be sold for an additional income. Future challenges and recommendations are also highlighted.

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Section: Techno-economic Performance Of Discarded Photovoltaic Solar ...mentioning

confidence: 99%

Sustainable Treatment of Spent Photovoltaic Solar Panels Using Plasma Pyrolysis Technology and Its Economic Significance

Chiang,

Han,

Claire

et al. 2024

Clean Technol.

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Recycling Perspectives of Electric Arc Furnace Slag in the United States: A Review

Kurecki,

Meena,

Shyrokykh

et al. 2024

steel research int.

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This article presents a comprehensive review of electric arc furnace (EAF) slag recycling in the United States, examining its classification and the associated challenges and opportunities of its industrial use. The study affirms EAF slag's nonhazardous status. The main challenges identified in EAF slag applications include substantial variations in composition and volume instability during/after hydration. Analysis of the U.S. recycling practices reveals that EAF slag is predominantly reused, with minimal landfill disposal. However, its prevalent use as a low value‐added aggregate in construction applications underscores the industry's ongoing challenge to get additional value from EAF slag recycling. Despite these challenges, the study highlights a great potential for increased value extraction from EAF slag recycling. Beyond conventional applications as a clinker material for the cement industry, the review explores modern technologies for steelmaking slag recycling, revealing options for recovering valuable metals such as Cr, V, Mo, and Fe through methods such as leaching, reduction, and oxidation.

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Performance of Slag-Based Fertilizers in Improving Durum Wheat Tolerance to Water Deficit

et al. 2023

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Recycling Electric Arc Furnace Slag into Fertilizer: Effects of “Waste Product” on Growth and Physiology of the Common Bean (Phaseolus vulgaris L.)

Cited by 9 publications

References 34 publications

Sustainable Treatment of Spent Photovoltaic Solar Panels Using Plasma Pyrolysis Technology and Its Economic Significance

Sustainable Treatment of Spent Photovoltaic Solar Panels Using Plasma Pyrolysis Technology and Its Economic Significance

Recycling Perspectives of Electric Arc Furnace Slag in the United States: A Review

Performance of Slag-Based Fertilizers in Improving Durum Wheat Tolerance to Water Deficit

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