Abstract In response to the environmental hazards and resource waste caused by the large amount of wet-based waste residue generated by the cyanamide industry, this study first employed a method combining acid washing and high-temperature alkali fusion to purify nano-graphitic carbon (N-GC) from cyanamide waste residue (FZ) and optimized the purification process conditions. Subsequently, the structure and physical properties of N-GC were characterized and analyzed. Finally, material balance calculations and cost estimates were conducted. The results showed that by treating 50 g of FZ with an initial acid wash using 800 mL of 1.1 mol/L hydrochloric acid solution to obtain crude waste residue carbon (FZ-C), followed by high-temperature alkali fusion for impurity removal under conditions of the mass ration of sodium hydroxide to FZ-C as 4:3, calcinated at 650 ℃ for 1 h and the concentration of hydrochloric acid solution as 2.3 mol/L. The obtained N-GC had high specific surface area, large pore volume, high contents of defective site and good hydrophilicity. Approximately 76 kg of N-GC could be obtained under the optimal purification conditions by treating 1 ton of cyanamide waste residue. This study provided a detailed experimental approach for the purification and utilization of carbon resources in cyanamide waste residue, which was of great significance for promoting the sustainable development of the cyanamide industry.
XU Jiahui,QIU Yiyang,LAN Guojun et al. Purification and Structural Analysis of Nitrogen-Doped Nano-Graphite Carbon Derived from Cyanamide Solid Waste[J]. Chemical Reaction Engineering and Technology, 2026, 42(1): 1-10.
XU Jiahui,QIU Yiyang,LAN Guojun et al. Purification and Structural Analysis of Nitrogen-Doped Nano-Graphite Carbon Derived from Cyanamide Solid Waste[J]. Chemical Reaction Engineering and Technology, 2026, 42(1): 1-10.
