Technology for Producing Acid-Resistant Slow-Release Fertilizer from Retired Batteries
Amid the global wave of energy transition, the popularity of electric vehicles has brought about an increasingly severe challenge—the fate of a large number of retired lithium iron phosphate (LFP) power batteries. Traditional hydrometallurgical recycling primarily focuses on extracting lithium, which is economically suboptimal and fails to fully utilize the phosphorus resource that constitutes nearly 40% of the battery’s mass. Simultaneously, modern agriculture faces the dual challenges of acidic soil remediation and low phosphorus fertilizer efficiency. A groundbreaking technology ingeniously connects these two seemingly unrelated problems. Through innovative chemical processes, it directly converts retired LFP batteries into a slow-release phosphorus fertilizer that performs exceptionally well in acidic soils. This is not only a major innovation in the field of resource recovery but also opens a new path for nutrient supply in green agriculture, serving as a vivid practice of the circular economy concept at the intersection of new energy and agriculture.
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