A technoeconomic assessment of microalgal culture technology implementation for combined wastewater treatment and CO2 mitigation in the Arabian Gulf
Author | Al Ketife, Ahmed M.D. |
Author | Almomani, F |
Author | EL-Naas, Muftah |
Author | Judd, Simon |
Available date | 2020-05-14T09:55:42Z |
Publication Date | 2019 |
Publication Name | Process Safety and Environmental Protection |
Resource | Scopus |
ISSN | 9575820 |
Abstract | A technoeconomic assessment (TEA) has been conducted of the feasibility of large-scale application of microalgal culture technology (MCT) to the combined mitigation of CO2 emissions from flue gases and nutrient discharges from wastewater in the Arabian Gulf. The assessment has incorporated the selection of the algal species and MCT technologies, the extent of nutrient removal, and the biomass/biofuel production rate. The cost benefit of the abatement of pollutants (in the form of CO2 and nutrient discharges) was included by assigning appropriate credits to these contributions. The overall economic viability was quantified as the break-even selling price (BESP) of the generated biocrude, taken to be the price at which the product must sell to cover the operating expenditure (OPEX). Based on available information and optimal operational conditions, the BESP was calculated as being $0.544 per kg biomass, equating to $0.9 L−1 for the extracted biocrude, the credited items contributing ˜14% of this figure. The BESP was found to be most sensitive to the algal growth rate μ, the BESP changing by ±24% in response to a ±20% change in μ. Whilst the terms of reference of the study are limited to OPEX contributors, the potential for sustainability associated with the innately reliably high levels of natural light in the Gulf region appear to provide auspicious circumstances for large-scale implementation of MCT. For emerging economies with a comparable climate but without a mineral oil-based economy a greater financial benefit from the proposed scheme would arise. |
Sponsor | This work was made possible by the support of a National Priorities Research Programme (NPRP) grant from the Qatar National Research Fund (QNRF) , grant reference number NPRP 6-1436-2-581 . The statements made herein are solely the responsibility of the authors. |
Language | en |
Publisher | Institution of Chemical Engineers |
Subject | Break-Even selling price Carbon dioxide biofixation Large-Scale implementation Microalgae culture technology Nutrient removal Technoeconomic analysis |
Type | Article |
Pagination | 90-102 |
Volume Number | 127 |
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Chemical Engineering [1175 items ]
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Gulf Studies Center Research [110 items ]