Economic Viability of Nickel Recovery from Waste Catalyst

被引:4
|
作者
Yang, Q. Z. [1 ]
Ng, R. S. [1 ]
Qi, G. J. [1 ]
Low, H. C. [1 ]
Zhang, Y. P. [1 ]
机构
[1] Singapore Inst Mfg Technol, Singapore, Singapore
来源
ADVANCED PRECISION ENGINEERING | 2010年 / 447-448卷
关键词
Economic viability; nickel recovery; waste catalyst; recycling process; closed-loop recovery;
D O I
10.4028/www.scientific.net/KEM.447-448.765
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
This paper investigates the economic viability of a closed-loop process for nickel recovery from roasted catalytic wastes. The effects of process parameters and market factors that drive the bottom-line profitability of nickel recovery are identified and analyzed using a cost and revenue evaluation model developed in the study. The main factors include the production batch size, material cost, and nickel selling price. With a nickel market value higher than S$18.85 per kg, the process is economically viable even with a batch size as small as 50 kg/batch. Given that the current nickel selling price at the metal exchange market has reached around S$24-28/kg, the economic feasibility of the process is confirmed.
引用
收藏
页码:765 / 769
页数:5
相关论文
共 50 条
  • [21] Energy recovery from waste incineration: economic aspects
    Deborah Panepinto
    Annamaria Senor
    Giuseppe Genon
    Clean Technologies and Environmental Policy, 2016, 18 : 517 - 527
  • [22] Separation and Recovery of Nickel from Waste Electroless Nickel-Phosphorous Plating Solution
    Ookubo, Tokie
    Nishihama, Syouhei
    Yoshizuka, Kazuharu
    SOLVENT EXTRACTION RESEARCH AND DEVELOPMENT-JAPAN, 2013, 20 : 149 - 157
  • [23] RECOVERY AND REACTIVATION OF NICKEL FROM SPENT CATALYST OF OIL HYDROGENATION INDUSTRY
    MURTHY, MNS
    INDIAN JOURNAL OF TECHNOLOGY, 1969, 7 (07): : 224 - +
  • [24] ECONOMIC RECOVERY OF PLASTICS FROM URBAN AND INDUSTRIAL WASTE.
    Ropertz, G.
    Aufbereitungs-Technik, 1986, 27 (09): : 489 - 494
  • [25] Economic, technical, and environmental viability of biodiesel blends derived from coffee waste
    Kamil, Mohammed
    Ramadan, Khalid M.
    Olabi, Abdul Ghani
    Al-Ali, Eman, I
    Ma, Xiao
    Awad, Omar, I
    RENEWABLE ENERGY, 2020, 147 (147) : 1880 - 1894
  • [26] TREATMENT AND RECOVERY OF NICKEL RICH PRECIPITATE FROM PLATING PLANT WASTE
    Kurama, Haldun
    JOURNAL OF ENVIRONMENTAL ENGINEERING AND LANDSCAPE MANAGEMENT, 2009, 17 (04) : 212 - 218
  • [27] RECOVERY OF VANADIUM AND MOLYBDENUM FROM HEAVY OIL DESULFURIZATION WASTE CATALYST
    BISWAS, RK
    WAKIHARA, M
    TANIGUCHI, M
    HYDROMETALLURGY, 1985, 14 (02) : 219 - 230
  • [28] Electrolytic Recovery of Metal Cobalt from Waste Catalyst Pickling Solution
    Chou, Yi-Sin
    Kan, Chin-Hsiang
    Devi, Nitika
    Chen, Yong-Song
    MATERIALS, 2022, 15 (19)
  • [29] Mo Recovery from Waste Hydrotreating Catalyst via Tributyl Phosphate
    Bu, Yongyang
    Wu, Haitao
    Hu, Kejie
    Huang, Dazhuang
    Ai, Tian
    Yao, Songdong
    KOREAN JOURNAL OF MATERIALS RESEARCH, 2025, 35 (02): : 69 - 81
  • [30] Recovery of Magnesium from Waste Effluent in Nickel Laterite Hydrometallurgy Process
    Sun, Ninglei
    Liu, Jinshan
    Wang, Kuiting
    Dong, Aiguo
    Lu, Yeda
    EPD CONGRESS 2012, 2012, : 409 - 416
12345