Article citationsMore>>
Werner, J. J., Knights, D., Garcia, M. L., Scalfone, N. B., Smith, S., Yarasheski, K., Cummings, T. A., Beers, A. R., Knight, R., & Angenent, L. T. (2011). Bacterial Community Structures Are Unique and Resilient in Full-Scale Bioenergy Systems. Proceedings of the National Academy of Sciences, 108, 4158-4163.
https://doi.org/10.1073/pnas.1015676108
has been cited by the following article:
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TITLE:
Techno-Economic Feasibility Study of Solid Waste Recycling System for Dry Waste from Water Treatment Plants: Sultanate of Oman Case
AUTHORS:
Mohammed Saif Alsaidi, Peter V. Dudin, Ilyes Jedidi
KEYWORDS:
Techno-Economic, Feasibility, Waste, Treatment, Oman, Sewage, Recycling System, UTAS-Suhar
JOURNAL NAME:
Technology and Investment,
Vol.12 No.1,
February
20,
2021
ABSTRACT: The production of human-produced wastes is increasing with the growth of the world’s inhabitants. As a result, the sustainable management of huge amounts of waste is becoming an increasingly challenging task. One of these challenges is the solid waste produced by the increasing number of water treatment plants (WTPs). This paper is reviewing and proposing a recycling system which may have a technical and economical feasibility for Oman and GCC. The Proposed Recycling system for dry waste from Water Treatment Plant (WTP) in this paper is expected to be able to operate in Omani operation conditions and GCC. It has been patented as a utility model. The assumed feed for the purpose of presenting economically viable case is assumed to be around 100 tons/day. This assumption could go higher depends on the demand.
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