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Utilization of temple floral waste for extraction of valuable products: A close loop approach towards environmental sustainability and waste management | ||
Pollution | ||
مقاله 5، دوره 3، شماره 1، فروردین 2017، صفحه 39-45 اصل مقاله (445.7 K) | ||
نوع مقاله: Short Communication | ||
شناسه دیجیتال (DOI): 10.22059/poll.2017.59570 | ||
نویسندگان | ||
Pardeep Singh* 1، 2؛ A. Borthakur3؛ R. Singh4؛ Sh. Awasthi1؛ D.B. Pal5؛ P. Srivastava6؛ D. Tiwary1؛ P.K. Mishra5 | ||
1Department of Chemistry, Indian Institute of Technology (BHU), Varanasi, 221005, India | ||
2Department of Environmental Studies, PGDAV College, University of Delhi, New Delhi 110007, India | ||
3Centre for Studies in Science Policy, School of Social Sciences, Jawaharlal Nehru University, New Delhi 110067, India | ||
4Institute of Environment and Sustainable Development, Banaras Hindu University (BHU), Varanasi, India | ||
5Department of Botany, Banaras Hindu University (BHU), Varanasi, India | ||
6Department of Chemical Engineering & Technology, Indian Institute of Technology (BHU), Varanasi, India | ||
چکیده | ||
This study presents the natural dye recovery from various biodegradable temple and household wastes. The raw material for colour extraction consisted residual flowers and garlands from various temples as well as onion and vegetables peels from vegetable markets, university hostels, and households, which were washed, dried, crushed, and sieved. The extracted natural colours were produced by means of ultra-sonication, and were dried in the spray drier, being characterized by FT-IR and UV-Vis Spectrophotometers. They were used to dye various fabrics such as cotton, silk, and wool, not to mention different mordents. It was found out that the remaining residue, left after dye extraction, was rich in nutrients, hence, it could be further used as the resource material, itself. As a result, we explored these residual wastes for vermicomposting and biochar production, which can be further employed as an organic fertilizer for agriculture. Overall, the present waste management approach will lead to a closed-loop environmental management through waste reduction and reutilization. It will also provide value-added materials for economic gains from waste. Thus, it can be promoted as a potential mechanism to maintain the environmental sustainability at wider scales. | ||
کلیدواژهها | ||
economic sustainability؛ natural colour extraction؛ waste management | ||
مراجع | ||
Bernal, M.P., Paredes, C. and Sanchez-Monedero, M.A. (1998). Maturity and stability parameters of composts prepared with a wide range of organic wastes. Bioresour. Technol., 63, 91–98.
Bhuyan, R. and Saikia, C.N. (2004). Isolation of colour components from native dye bearing plants in Northeastern India. Bioresour. Technol., 95: 363–372.
Ghouila, H., Meksi, N., Haddar, W., Mhenni, M.F. and Jannet, H.B. (2012). Extraction, identification and dyeing studies of Isosalipurposide, a natural chalcone dye from Acaciacyanophylla flowers on wool. Industrial Crops and Products, 35, 31–36.
Gurav, M.V. and Pathade, G.R. (2010). Production of Vermicompost from Temple Waste (Nirmalya): A Case Study, Universal Journal of Environmental Research and Technology, 2, 182-192.
Mehanta, D. and Tiwari, S.C. (2005). Natural dye-yielding plants and indigenous knowledge on dye preparation in Arunachal Pradesh Northeast India. Curr. Sci., 88, 1474–1480.
Mishra, P.K., Singh, P., Gupta, K.K., Tiwari, H. and Srivastava, P. (2012). Extraction of natural dye from Dahlia variabilis using ultrasound, Indian Journal of Fibre & Textile Research, 37, 83-86.
Murthy, P.S. and Naidu, M.M. (2012). Sustainable management of coffee industry by-products and value addition- A review .Resources, Conservation and Recycling, 66,45–58.
Padmavathiamma, P.K., Li, L.Y. and Kumari, U.R. (2008). An experimental study of vermin biowaste composting for agricultural soil improvement. Bioresour. Technol., 99, 1672–1681.
Phillips, J. and Mondal, M.K. (2014). Determining the sustainability of options for municipal solid waste disposal in Varanasi, India. Sustainable Cities and Society, 10, 11–21.
Sajab, M.S., Chia C.H., Zakaria, S., Jani, S.M., Ayob, M.K., Chee, K.L., Khiew, P.S. and Chiu, W.S. (2011). Citric acid modified kenaf core fibres for removal of methylene blue from aqueous solution. Bioresour Technol., 102, 7237-7243.
Shekdar, A.V. (2009). Sustainable solid waste management: An integrated approach for Asian countries. Waste Management, 29, 1438–1448.
Singh, P., Vishnu, M.C., Sharma, K.K., Borthakur, A., Srivastava, P., Pal, D.B., ... and Mishra, P.K. (2016a). Photocatalytic degradation of Acid Red dye stuff in the presence of activated carbon- TiO2 composite and its kinetic enumeration. Journal of Water Process Engineering, 12, 20-31.
Singh, P., Singh, R., Borthakur, A., Srivastava, P., Srivastava, N., Tiwary, D. and Mishra, P. K. (2016b). Effect of nanoscale TiO2-activated carbon composite on Solanum lycopersicum (L.) and Vigna radiata (L.) seeds germination. Energy, Ecology and Environment, 1(3), 131-140.
Singh, P., Vishnu, M.C., Sharma, K.K., Singh, R., Madhav, S., Tiwary, D. and Mishra, P.K. (2015a). Comparative study of dye degradation using TiO2-activated carbon nanocomposites as catalysts in photocatalytic, sonocatalytic and photosonocatalytic reactor. Desalination and Water Treatment, 1-13.
Singh, R., Babu, J.N., Kumar, R., Srivastava, P., Singh, P. and Raghubanshi, A.S. (2015b). Multifaceted application of crop residue biochar as a tool for sustainable agriculture: an ecological perspective. Ecological Engineering, 77, 324-347.
Singh, A., Jain, A., Sarma, B.K., Abhilash, P.C. and Singh, H.B. (2013). Solid waste management of temple floral offerings by vermicomposting using Eisenia fetida. Waste Management, 33, 1113–1118.
Sukholthaman, P. and Shirahada, K. (2015). Technological challenges for effective development towards sustainable waste management in developing countries: Case study of Bangkok, Thailand. Technology in Society, 1-10.
Tiwari, H.C., Singh, P., Mishra, P.K. and Srivastava,P. (2010). Indian. J. Fibre.Text. Res., 359,272.
Venkatasubramanian, S., Vijaeeswarri, J. and Anna, J.L. (2011). Effective natural dye extraction from different plant materials using ultrasound, Industrial Crops and Products, 33, 116–122.
Wang, H., Yuan, X., Zeng, G., Leng, L., Peng, X., Liao, K., Peng, L. and Xiao, Z. (2014). Removal of malachite green dye from wastewater by different organic acid-modified natural adsorbent: kinetics, equilibriums, mechanisms, practical application, and disposal of dye-loaded adsorbent. Environ Sci Pollut Res., 211, 1552-11564.
Wani, K.A., Mamta, K. and Rao, R.J. (2013). Bioconversion of garden waste, kitchen waste and cow dung into value-added products using earthworm Eisenia fetida. Saudi Journal of Biological Sciences, 20, 149–154. | ||
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