Biotechnology for Zero Waste – Emerging Waste Management Techniques (Chaudhery Mustansar Hussain (editor) etc.)

References

217

5 Zeng, J., Gou, M., Tang, Y.Q. et al. (2016). Effective bioleaching of chromium

in tannery sludge with an enriched sulfur-oxidizing bacterial community. Biore-

source Technology 218: 859–866.

6 Priya, A. and Hait, S. (2017). Comparative assessment of metallurgical recovery

of metals from electronic waste with special emphasis on bioleaching. Environ-

mental Science and Pollution Research 24 (8): 6989–7008.

7 Olson, G.J., Brierley, J.A., and Brierley, C.L. (2003). Bioleaching review part B.

Applied Microbiology and Biotechnology 63 (3): 249–257.

8 Zimmerley, S.R., Wilson, D.G., and Prater, J.D. (1958). Cyclic leaching process

employing iron oxidizing bacteria. US Patent 2,829,964, filed 24 October 1958

and issued 4 April 1958.

9 Bosecker, K. (1997). Bioleaching: metal solubilization by microorganisms. FEMS

Microbiology Reviews 20 (3–4): 591–604.

10 Natarajan, K.A. (2018). Bioleaching mechanisms, Chapter 4. In: Biotechnology

of Metals: Principles, Recovery Methods and Environmental Concerns, 1e (ed.

K.A. Natarajan), 49–80. Elsevier Publications https://doi.org/10.1016/B978-0-12-

804022-5.00004-9.

11 Auerbach, R., Ratering, S., Bokelmann, K. et al. (2019). Bioleaching of valuable

and hazardous metals from dry discharged incineration slag. An approach for

metal recycling and pollutant elimination. Journal of Environmental Management

232: 428–437.

12 Brierley, C.L. (1999). Bacterial succession in bioheap leaching. Process Metallurgy

9: 91–97.

13 Kumar, S. and Singh, V. (2019). E-waste: generation, environmental and

health impacts, recycling and status of e-waste legislation. Journal of Emerging

Technologies and Innovative Research 6 (1): 592–600.

14 Pradhan, D., Mishra, D., Kim, D.J. et al. (2010). Bioleaching kinetics and

multivariate analysis of spent petroleum catalyst dissolution using two aci-

dophiles. Journal of Hazardous Materials 175 (1–3): 267–273.

15 Zhao, K., Gu, G., Qiu, G., and Wang, X. (2017). Study on the jarosite medi-

ated by bioleaching of pyrrhotite using Acidthiobacillus ferrooxidans. Bioscience

Journal 33 (3): 721–729.

16 Arya, S. and Kumar, S. (2020). E-waste in India at a glance: current trends,

regulations, challenges and management strategies. Journal of Cleaner Production

271: 122707.

17 Awasthi, A.K., Wang, M., Wang, Z. et al. (2018). E-waste management in India: a

mini-review. Waste Management & Research 36 (5): 408–414.

18 Kaya, M. (2018). Current WEEE recycling solutions, Chapter 3. In: Waste

Electrical and Electronic Equipment Recycling (eds. F. Vegliò and I. Birloaga),

33–93. Woodhead Publishing. Elsevier Ltd.

19 Sand, W., Gehrke, T., Jozsa, P.G. et al. (2001). (Bio)chemistry of bacterial

leaching-direct vs. indirect bioleaching. Hydrometallurgy (2–3): 159–175.

20 Xu, T.J., Ramanathan, T., and Ting, Y.P. (2014). Bioleaching of incineration fly

ash by Aspergillus niger-precipitation of metallic salt crystals and morphological

alteration of the fungus. Biotechnology Reports 3: 8–14.