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A comparative investigation of the technoeconomic feasibility and sustainability of mango waste biorefineries in South Africa: a process modeling approach
Thesis (MEng)--Stellenbosch University, 2023.
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| Format: | Thesis |
| Language: | en_ZA en_ZA |
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Stellenbosch : Stellenbosch University,
2023
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| _version_ | 1867614076079702016 |
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| access_status_str | Open Access |
| author | Manhongo, Tariro Tecla |
| author2 | Chimphango, Annie Fabian Abel |
| author_browse | Chimphango, Annie Fabian Abel Manhongo, Tariro Tecla |
| author_facet | Chimphango, Annie Fabian Abel Manhongo, Tariro Tecla |
| author_sort | Manhongo, Tariro Tecla |
| collection | Thesis |
| dc_rights_str_mv | Stellenbosch University, |
| description | Thesis (MEng)--Stellenbosch University, 2023. |
| format | Thesis |
| id | oai:scholar.sun.ac.za:10019.1/127360 |
| institution | Stellenbosch University (South Africa) |
| language | en_ZA en_ZA |
| last_indexed | 2026-06-10T12:46:16.958Z |
| license_str | Other — see source repository |
| provenance_str_mv | Harvested via OAI-PMH from SUNScholar — Stellenbosch University Repository |
| publishDate | 2023 |
| publishDateRange | 2023 |
| publishDateSort | 2023 |
| publisher | Stellenbosch : Stellenbosch University, |
| publisherStr | Stellenbosch : Stellenbosch University, |
| record_format | dspace |
| source_str | SUNScholar — Stellenbosch University Repository |
| spelling | oai:scholar.sun.ac.za:10019.1/127360 A comparative investigation of the technoeconomic feasibility and sustainability of mango waste biorefineries in South Africa: a process modeling approach Manhongo, Tariro Tecla Chimphango, Annie Fabian Abel Thornley, Patricia Stellenbosch University. Faculty of Engineering. Dept. of Chemical Engineering. Fruit processing plants -- South Africa Biomass energy -- South Africa Mango industry -- South Africa Agricultural engineering -- South Africa Thesis (MEng)--Stellenbosch University, 2023. ENGLISH ABSTRACT: Fruit processing waste (FPW) is a suitable biorefinery feedstock for conversion into bioenergy, biofuels, and chemicals. However, information on which processing routes and product combinations are economically viable and sustainable is limited. Using South Africa as a base developing economy, the availability of FPW as biorefinery feedstocks, economic viability, and sustainability of FPW-based biorefinery systems were evaluated in this study using mango processing waste as a base feedstock. Six biorefinery scenarios were evaluated; (I) combined heat and power (CHP) generation, (II) co-production of pectin and CHP, (III) co-production of pectin, polyphenols and CHP, (IV) co-production of pectin, bioethanol, and CHP, (V) co-production of pectin, polyphenols, bioethanol, and CHP, and (VI) co-production of bioethanol and CHP. In scenarios II to VI, residues from pectin and/or polyphenols recovery and wastewater are anaerobically digested for biogas production and the biogas in all scenarios is co-combusted with mango seed for steam generation (for use within the biorefinery and export to the host dried mango chips facility) and power (for consumption within the biorefinery and export if excess is generated). Aspen Plus process simulation models were developed at a plant capacity of 1500 tonnes per day (1200 tonnes process wastewater + 133.33 tonnes peel + 166.67 tonnes seed), operating for 24 h/day, and 120 days/annum. A discounted cash flow analysis was employed in assessing the economic viability of the six biorefinery models using the mass and energy flows from the models and incorporated in SimaPro-based attributional life cycle analysis models to evaluate the environmental impacts of the biorefineries. Using systems thinking, results from the technoeconomic analysis were employed in estimating the socio-economic benefits of the biorefineries using input-output Jobs and Economic Development Impact assessment models adopted from the National Energy Renewable Laboratory. Indicators for economic, environmental, and socio-economic performances of the biorefineries were normalized, weighted, and aggregated in a multi-criterion decision analysis approach to compare sustainability performances of the biorefineries. Scenarios I and VI are economically unattractive with net present values (NPVs) of -$94.4 and -$120.9 million, respectively. NPVs of the biorefineries increase with the recovery of more products in the order Scenario IV<I<IV<II<V<III. Socio-economic benefits of the biorefineries increase in the order Scenario I<VI<III<II<IV<V. However, environmental impacts increase in the order Scenario I<II<III<IV<VI<V. In terms of overall sustainability, the study results reveal that biorefinery sustainability is subject to stakeholder preferences. The most lucrative scenario in one or two categories is not the most attractive scenario in another perspective. For instance, Scenario V is the most sustainable option when socio-economic performance is prioritized but the least attractive when environmental performance is prioritized, Scenario I is the most environmentally preferable but not profitable, and Scenario II is the most sustainable option when all three pillars of sustainability are equally prioritized. Overall, the study provides novel biorefinery options for co-producing bioenergy and bioactives which, when integrated into mango fruit processing facilities will improve revenue flow, provide clean energy, and create more jobs. In addition, the study revealed the necessary trade-offs that are necessary between the pillars of sustainability when selecting biorefinery options for implementation. AFRIKAANS OPSOMMING: Fruit processing waste (FPW) is a suitable biorefinery feedstock for conversion into bioenergy, biofuels, and chemicals. However, information on which processing routes and product combinations are economically viable and sustainable is limited. Using South Africa as a base developing economy, the availability of FPW as biorefinery feedstocks, economic viability, and sustainability of FPW-based biorefinery systems were evaluated in this study using mango processing waste as a base feedstock. Six biorefinery scenarios were evaluated; (I) combined heat and power (CHP) generation, (II) co-production of pectin and CHP, (III) co-production of pectin, polyphenols and CHP, (IV) co-production of pectin, bioethanol, and CHP, (V) co-production of pectin, polyphenols, bioethanol, and CHP, and (VI) co-production of bioethanol and CHP. In scenarios II to VI, residues from pectin and/or polyphenols recovery and wastewater are anaerobically digested for biogas production and the biogas in all scenarios is co-combusted with mango seed for steam generation (for use within the biorefinery and export to the host dried mango chips facility) and power (for consumption within the biorefinery and export if excess is generated). Aspen Plus process simulation models were developed at a plant capacity of 1500 tonnes per day (1200 tonnes process wastewater + 133.33 tonnes peel + 166.67 tonnes seed), operating for 24 h/day, and 120 days/annum. A discounted cash flow analysis was employed in assessing the economic viability of the six biorefinery models using the mass and energy flows from the models and incorporated in SimaPro-based attributional life cycle analysis models to evaluate the environmental impacts of the biorefineries. Using systems thinking, results from the technoeconomic analysis were employed in estimating the socio-economic benefits of the biorefineries using input-output Jobs and Economic Development Impact assessment models adopted from the National Energy Renewable Laboratory. Indicators for economic, environmental, and socio-economic performances of the biorefineries were normalized, weighted, and aggregated in a multi-criterion decision analysis approach to compare sustainability performances of the biorefineries. Scenarios I and VI are economically unattractive with net present values (NPVs) of -$94.4 and -$120.9 million, respectively. NPVs of the biorefineries increase with the recovery of more products in the order Scenario IV<I<IV<II<V<III. Socio-economic benefits of the biorefineries increase in the order Scenario I<VI<III<II<IV<V. However, environmental impacts increase in the order Scenario I<II<III<IV<VI<V. In terms of overall sustainability, the study results reveal that biorefinery sustainability is subject to stakeholder preferences. The most lucrative scenario in one or two categories is not the most attractive scenario in another perspective. For instance, Scenario V is the most sustainable option when socio-economic performance is prioritized but the least attractive when environmental performance is prioritized, Scenario I is the most environmentally preferable but not profitable, and Scenario II is the most sustainable option when all three pillars of sustainability are equally prioritized. Overall, the study provides novel biorefinery options for co-producing bioenergy and bioactives which, when integrated into mango fruit processing facilities will improve revenue flow, provide clean energy, and create more jobs. In addition, the study revealed the necessary trade-offs that are necessary between the pillars of sustainability when selecting biorefinery options for implementation. Doctoral 2023-03-03T12:26:21Z 2023-05-18T07:18:05Z 2023-03-03T12:26:21Z 2023-05-18T07:18:05Z 2023-03 Thesis http://hdl.handle.net/10019.1/127360 en_ZA en_ZA Stellenbosch University, 307 pages : illustrations application/pdf Stellenbosch : Stellenbosch University, |
| spellingShingle | Fruit processing plants -- South Africa Biomass energy -- South Africa Mango industry -- South Africa Agricultural engineering -- South Africa Manhongo, Tariro Tecla A comparative investigation of the technoeconomic feasibility and sustainability of mango waste biorefineries in South Africa: a process modeling approach |
| title | A comparative investigation of the technoeconomic feasibility and sustainability of mango waste biorefineries in South Africa: a process modeling approach |
| title_full | A comparative investigation of the technoeconomic feasibility and sustainability of mango waste biorefineries in South Africa: a process modeling approach |
| title_fullStr | A comparative investigation of the technoeconomic feasibility and sustainability of mango waste biorefineries in South Africa: a process modeling approach |
| title_full_unstemmed | A comparative investigation of the technoeconomic feasibility and sustainability of mango waste biorefineries in South Africa: a process modeling approach |
| title_short | A comparative investigation of the technoeconomic feasibility and sustainability of mango waste biorefineries in South Africa: a process modeling approach |
| title_sort | comparative investigation of the technoeconomic feasibility and sustainability of mango waste biorefineries in south africa a process modeling approach |
| topic | Fruit processing plants -- South Africa Biomass energy -- South Africa Mango industry -- South Africa Agricultural engineering -- South Africa |
| url | http://hdl.handle.net/10019.1/127360 |
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