Phosphorous recovery potential from sewage sludge by struvite precipitation: remodelling policy framework in Rajasthan, India

Ankit Srivastava, K. Saxena, U. Brighu
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Abstract

The manufacturing of fossil-based fertilizers by extraction of rock phosphate has contributed to carbon emissions and depleted the non-renewable phosphorous reserves. Sewage sludge, which is a waste product from sewage treatment plants (STPs), is rich in phosphorous. The existing techniques for sludge management contribute to carbon emissions and ecological footprint. Struvite (raw fertilizer) and biochar recovery from sludge have emerged as viable methods to reduce carbon emissions and ensure the economic sustainability of STPs. In this work, the potential for phosphorous recovery and revenue generation is discussed for Rajasthan state in India. The fate of phosphorous and heavy metals in STPs is evaluated which indicates that about 70% of the phosphorous and trace amounts of metals end up in sewage sludge. Further, the power consumption is high in STPs due to industrial wastewater ingress. There is a need to bridge the gap between sewage treatment and generation in Rajasthan and improve STP performance before resource recovery inclusion at policy-level and scale-up. Mixing struvite with biochar can lead to the safe application of struvite as raw fertilizer as heavy metals are sequestered by biochar. A business framework is developed to serve as a blueprint and potential model for linking technical and market viability.
通过硬石膏沉淀从污水污泥中回收磷的潜力:印度拉贾斯坦邦政策框架的重塑
通过提取磷矿石来制造化石基肥料,不仅造成了碳排放,还耗尽了不可再生的磷储量。污泥是污水处理厂(STP)产生的废物,富含磷。现有的污泥管理技术造成了碳排放和生态足迹。从污泥中回收硬石膏(生肥)和生物炭已成为减少碳排放和确保污水处理厂经济可持续性的可行方法。本研究讨论了印度拉贾斯坦邦磷回收和创收的潜力。对污水处理厂中磷和重金属的去向进行了评估,结果表明,约 70% 的磷和微量金属最终会进入污水污泥中。此外,由于工业废水的进入,污水处理厂的耗电量很高。有必要缩小拉贾斯坦邦污水处理和发电之间的差距,并在将资源回收纳入政策层面和扩大规模之前提高污水处理厂的性能。将硬石膏与生物炭混合可安全地将硬石膏用作化肥原料,因为重金属会被生物炭吸收。制定了一个商业框架,作为将技术和市场可行性联系起来的蓝图和潜在模式。
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