A Circular Economy approach in the Agri-food chain: using by-products and underexploited raw materials as flours for gluten-free bakery and as coagulants for wastewater treatment
| Main Author: | |
|---|---|
| Publication Date: | 2022 |
| Language: | eng |
| Source: | Repositórios Científicos de Acesso Aberto de Portugal (RCAAP) |
| Download full: | https://hdl.handle.net/10348/12936 |
Summary: | Nowadays, food scarcity has been leading the agri-food stakeholders to find solutions in order to face this problem. Circular Economy has been identified as one of the successful strategies to overcome resources scarcity, besides presenting environmental advantages. Thus, applying Circular Economy fundamentals in order to use by-products and underexploited raw materials, can be considered an important contribution to overcome this problem in the future. Moreover, these ingredients fulfill the current food trends from different perspectives and are also recognized for their potential health benefits. Therefore, it is essential to study its application in food products, in order to understand its nutritional and organoleptic performance. The objectives of the present work are: to study the feasibility of a Circular Economy approach in the Agri-food chain, adding value to by-products and underexploited raw materials as flours, to produce gluten-free (GF) bread, improving its characteristics, and also to assess the use of by-products as plant-based coagulants for wastewater treatment. The studied ingredients were acorn flour as an underexploited resource, and apple flour as a by-product, being both naturally GF. Acorn flour characterization results revealed a multipurpose ingredient potential. The nutritional composition presented about 4.3% protein, 11.4% of fat content, particularly monounsaturated and polyunsaturated (oleic and linoleic acids), 11.4% of fiber, mainly insoluble, and also high minerals content (1.6%), in particular, potassium (0.70%). Bioactive compounds and antioxidant capacity have shown high values, with the following phenolic compounds identified by HPLC: rutin, catechin, ellagic acid, gallic acid, and syringic acid. Acorn flour revealed a starch content of about 50%, with spherical shaped granules, and pasting behaviour has presented a high gelatinization temperature (85ºC), with low breakdown, and higher retrogradation consistency. Acorn flour rheological performance has shown a positive impact in the firmness, cohesiveness, and viscoelastic characteristics of the dough, influencing mixing and pasting curves, as well. These effects were revealed with an acorn flour incorporation level of 23% in dough’s formulation. Consequently, GF bread also presented improved technological characteristics. Additionally, nutritional, functional, and sensorial profile have improved with acorn flour incorporation. In particular, acorn flour allowed to develop breads with higher content of fiber, unsaturated fatty acids (oleic and linoleic), minerals, bioactive compounds, and higher antioxidant capacity. Moreover, rutin, catechin, and ellagic acid, were present in the breads with acorn flour incorporation, while gallic acid and syringic acid increased their concentration in comparison with control bread. Combining acorn flour with sourdough, joined both positive features, leading to GF bread with technological, nutritional and functional improved characteristics. Besides the expected acidification from sourdough, acorn flour decreased the rate and extent of starch hydrolysis, increased unsaturated fatty acids, and polyphenols content. Concerning apple flour, its nutritional and functional characterization revealed approximately 1.3% protein, 0.5% of fat content, 12.9% of fiber, mainly insoluble, and 5.5% of ash content, high bioactive compounds and antioxidant capacity. Apple flour was added to GF bread as a sustainable sweetener, acting as a natural sugar source, and leading to a low-intermediate glycemic index GF bread. The results revealed an improvement in technological, and sensorial characteristics of the bread, with an increase of bioactive compounds content and antioxidant capacity. Fulfilling the second objective of the present work, and closing the production cycle, plantbased coagulants from by-products (chestnut burr, acorn peel, olive leaf, and grape stem) were tested in the coagulation-flocculation-decantation of elderberry wastewater treatment process, before applying photo-Fenton methodology. The plant-based coagulants achieved higher efficiency at pH 3.0. The pre-treatment using the CFD process is important to reduce turbidity and total suspended solids in order to improve the efficiency of the photo-Fenton process, due to better penetration of the radiation. The use of plant-based coagulants from by-products, is a promising strategy for wastewater treatment, while at the same time, enabling re-using and adding value to agri-food industry resources, that were being wasted, and reaching environment-friendly solutions as well. |
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A Circular Economy approach in the Agri-food chain: using by-products and underexploited raw materials as flours for gluten-free bakery and as coagulants for wastewater treatmentCircular Economyfood scarcityby-productsunderexploited resourcesglutenfree floursgluten-free breadplant-based coagulantsNowadays, food scarcity has been leading the agri-food stakeholders to find solutions in order to face this problem. Circular Economy has been identified as one of the successful strategies to overcome resources scarcity, besides presenting environmental advantages. Thus, applying Circular Economy fundamentals in order to use by-products and underexploited raw materials, can be considered an important contribution to overcome this problem in the future. Moreover, these ingredients fulfill the current food trends from different perspectives and are also recognized for their potential health benefits. Therefore, it is essential to study its application in food products, in order to understand its nutritional and organoleptic performance. The objectives of the present work are: to study the feasibility of a Circular Economy approach in the Agri-food chain, adding value to by-products and underexploited raw materials as flours, to produce gluten-free (GF) bread, improving its characteristics, and also to assess the use of by-products as plant-based coagulants for wastewater treatment. The studied ingredients were acorn flour as an underexploited resource, and apple flour as a by-product, being both naturally GF. Acorn flour characterization results revealed a multipurpose ingredient potential. The nutritional composition presented about 4.3% protein, 11.4% of fat content, particularly monounsaturated and polyunsaturated (oleic and linoleic acids), 11.4% of fiber, mainly insoluble, and also high minerals content (1.6%), in particular, potassium (0.70%). Bioactive compounds and antioxidant capacity have shown high values, with the following phenolic compounds identified by HPLC: rutin, catechin, ellagic acid, gallic acid, and syringic acid. Acorn flour revealed a starch content of about 50%, with spherical shaped granules, and pasting behaviour has presented a high gelatinization temperature (85ºC), with low breakdown, and higher retrogradation consistency. Acorn flour rheological performance has shown a positive impact in the firmness, cohesiveness, and viscoelastic characteristics of the dough, influencing mixing and pasting curves, as well. These effects were revealed with an acorn flour incorporation level of 23% in dough’s formulation. Consequently, GF bread also presented improved technological characteristics. Additionally, nutritional, functional, and sensorial profile have improved with acorn flour incorporation. In particular, acorn flour allowed to develop breads with higher content of fiber, unsaturated fatty acids (oleic and linoleic), minerals, bioactive compounds, and higher antioxidant capacity. Moreover, rutin, catechin, and ellagic acid, were present in the breads with acorn flour incorporation, while gallic acid and syringic acid increased their concentration in comparison with control bread. Combining acorn flour with sourdough, joined both positive features, leading to GF bread with technological, nutritional and functional improved characteristics. Besides the expected acidification from sourdough, acorn flour decreased the rate and extent of starch hydrolysis, increased unsaturated fatty acids, and polyphenols content. Concerning apple flour, its nutritional and functional characterization revealed approximately 1.3% protein, 0.5% of fat content, 12.9% of fiber, mainly insoluble, and 5.5% of ash content, high bioactive compounds and antioxidant capacity. Apple flour was added to GF bread as a sustainable sweetener, acting as a natural sugar source, and leading to a low-intermediate glycemic index GF bread. The results revealed an improvement in technological, and sensorial characteristics of the bread, with an increase of bioactive compounds content and antioxidant capacity. Fulfilling the second objective of the present work, and closing the production cycle, plantbased coagulants from by-products (chestnut burr, acorn peel, olive leaf, and grape stem) were tested in the coagulation-flocculation-decantation of elderberry wastewater treatment process, before applying photo-Fenton methodology. The plant-based coagulants achieved higher efficiency at pH 3.0. The pre-treatment using the CFD process is important to reduce turbidity and total suspended solids in order to improve the efficiency of the photo-Fenton process, due to better penetration of the radiation. The use of plant-based coagulants from by-products, is a promising strategy for wastewater treatment, while at the same time, enabling re-using and adding value to agri-food industry resources, that were being wasted, and reaching environment-friendly solutions as well.Atualmente a escassez de alimentos tem levado os intervenientes do sector agroalimentar a procurarem soluções para enfrentarem este problema, sendo a Economia Circular reconhecida como uma estratégia de sucesso para tal. Paralelamente, a Economia Circular também contribui para o combate ao desperdício alimentar, e ainda apresenta vantagens ambientais. Assim, a aplicação dos princípios da Economia Circular, através do aproveitamento de sub-produtos e matérias-primas sub-exploradas, pode trazer uma importante contribuição para superar o problema da escassez alimentar. Acresce ainda o facto destes ingredientes atenderem às tendências alimentares atuais sendo igualmente reconhecidos pelos seus potenciais benefícios para a saúde. Desta forma é essencial estudar a sua aplicação em produtos alimentares na tentativa de conhecer o seu comportamento nutricional e organolético. Os objetivos do presente trabalho são estudar a exequibilidade de uma abordagem de Economia Circular aplicada à cadeia agroalimentar, agregando valor a sub-produtos e matérias-primas sub-exploradas sob a forma de farinhas, para produzir pães isentos de glúten melhorando as suas características, e avaliar o uso de sub-produtos como coagulantes naturais no tratamento de efluentes. Os ingredientes estudados foram a farinha de bolota como recurso sub-explorado e a farinha de maçã como sub-produto, sendo ambos naturalmente isentos de glúten. Os resultados da caracterização da farinha de bolota revelaram um ingrediente com potencial para diversas utilizações. A sua composição nutricional revelou ser aproximadamente 4,3% de proteína, 11,4% de gordura, em particular monoinsaturada e polinsaturada (ácidos oleico e linoleico), 11,4% de fibra, maioritariamente insolúvel, e ainda um elevado teor em minerais (1,6%), em particular potássio (0,70%). Os compostos bioativos e a capacidade antioxidante apresentaram valores elevados com os seguintes compostos fenólicos identificados por HPLC: rutina, catequina, ácido elágico, ácido gálico e siríngico. A farinha de bolota é constituída por cerca de 50% de amido, com grânulos de forma esférica, e as curvas de aquecimento revelaram uma elevada temperatura de gelatinização (85ºC), com um baixo valor de queda e uma retrogradação com elevada viscosidade. O comportamento reológico da farinha de bolota mostrou um impacto positivo nas características de firmeza, coesividade e viscoelasticidade da massa, influenciando as curvas de mistura e de aquecimento. Estes efeitos foram obtidos com um nível de incorporação de 23% na formulação da massa. Assim, o pão isento de glúten apresentou melhorias nas suas características tecnológicas. Adicionalmente o perfil nutricional, funcional e sensorial também melhorou com a incorporação de farinha de bolota. A farinha de bolota permitiu desenvolver pães com um elevado teor em fibra, ácidos gordos insaturados (oleico e linoleico), minerais, compostos bioativos e capacidade antioxidante. Em particular a rutina, a catequina e o ácido elágico foram identificados no pão com incorporação de farinha de bolota, enquanto o ácido gálico e siringico relevaram um aumento de concentração em comparação com o pão controlo. A combinação da farinha de bolota com a “massa-mãe” agregou os efeitos positivos de ambos, originando um pão sem glúten com melhores características. Para além da esperada acidificação causada pela “massa-mãe”, a farinha de bolota diminuiu a taxa e a extensão da hidrólise do amido, aumentando o teor em ácidos gordos insaturados e em polifenóis do pão. No que se refere à farinha de maçã, a sua caracterização nutricional e funcional revelou aproximadamente 1,3% de proteína, 0,5% de gordura, 12,9% de fibra, maioritariamente insolúvel, 5,5% de cinza, um alto teor em compostos bioativos e elevada capacidade antioxidante. A farinha de maçã foi adicionada ao pão isento de glúten com o objetivo de ser um adoçante sustentável, funcionando como um açúcar natural e permitindo obter um pão de baixo-intermédio índice glicémico e isento de glúten. Os resultados revelaram uma melhoria ao nível das características tecnológicas e sensoriais do pão isento de glúten, com um aumento do conteúdo em compostos bioativos e capacidade antioxidante. Dando cumprimento ao segundo objetivo deste estudo e fechando o ciclo de produção, os coagulantes naturais obtidos a partir de sub-produtos (ouriço de castanha, casca de bolota, folha de azeitona e engaço de uva) foram testados no processo de coagulação-floculação-decantação para o tratamento de efluente de baga de sabugueiro, antes da aplicação do processo fotoFenton. Os resultados obtidos revelaram-se promissores, mostrando que este método pode ser utilizado como um tratamento prévio à aplicação do processo foto-Fenton no tratamento de efluentes líquidos de baga de sabugueiro. Os coagulantes naturais atingiram a maior eficiência a um pH de 3,0. O pré-tratamento através do processo de coagulação-floculação-decantação é importante para reduzir a turbidez e os sólidos suspensos totais, com o intuito de melhorar a eficiência do processo foto-Fenton, de forma a permitir uma melhor penetração da radiação. O uso de coagulantes naturais obtidos a partir de sub-produtos é uma estratégia promissora, para o tratamento de efluentes, e ao mesmo tempo permite a reutilização e a valorização dos recursos da indústria agro-alimentar, que estavam a ser desperdiçados, atingindo-se ainda uma solução mais “amiga do ambiente”2024-10-01T11:09:02Z2022-10-07T00:00:00Z2022-10-072022-12-09doctoral thesisinfo:eu-repo/semantics/publishedVersionapplication/pdfapplication/pdfapplication/pdfhttps://hdl.handle.net/10348/12936engMartins, Maria Rita Beltrão Francoinfo:eu-repo/semantics/openAccessreponame:Repositórios Científicos de Acesso Aberto de Portugal (RCAAP)instname:FCCN, serviços digitais da FCT – Fundação para a Ciência e a Tecnologiainstacron:RCAAP2025-02-09T02:07:13Zoai:repositorio.utad.pt:10348/12936Portal AgregadorONGhttps://www.rcaap.pt/oai/openaireinfo@rcaap.ptopendoar:https://opendoar.ac.uk/repository/71602025-05-28T18:55:14.741673Repositórios Científicos de Acesso Aberto de Portugal (RCAAP) - FCCN, serviços digitais da FCT – Fundação para a Ciência e a Tecnologiafalse |
| dc.title.none.fl_str_mv |
A Circular Economy approach in the Agri-food chain: using by-products and underexploited raw materials as flours for gluten-free bakery and as coagulants for wastewater treatment |
| title |
A Circular Economy approach in the Agri-food chain: using by-products and underexploited raw materials as flours for gluten-free bakery and as coagulants for wastewater treatment |
| spellingShingle |
A Circular Economy approach in the Agri-food chain: using by-products and underexploited raw materials as flours for gluten-free bakery and as coagulants for wastewater treatment Martins, Maria Rita Beltrão Franco Circular Economy food scarcity by-products underexploited resources glutenfree flours gluten-free bread plant-based coagulants |
| title_short |
A Circular Economy approach in the Agri-food chain: using by-products and underexploited raw materials as flours for gluten-free bakery and as coagulants for wastewater treatment |
| title_full |
A Circular Economy approach in the Agri-food chain: using by-products and underexploited raw materials as flours for gluten-free bakery and as coagulants for wastewater treatment |
| title_fullStr |
A Circular Economy approach in the Agri-food chain: using by-products and underexploited raw materials as flours for gluten-free bakery and as coagulants for wastewater treatment |
| title_full_unstemmed |
A Circular Economy approach in the Agri-food chain: using by-products and underexploited raw materials as flours for gluten-free bakery and as coagulants for wastewater treatment |
| title_sort |
A Circular Economy approach in the Agri-food chain: using by-products and underexploited raw materials as flours for gluten-free bakery and as coagulants for wastewater treatment |
| author |
Martins, Maria Rita Beltrão Franco |
| author_facet |
Martins, Maria Rita Beltrão Franco |
| author_role |
author |
| dc.contributor.author.fl_str_mv |
Martins, Maria Rita Beltrão Franco |
| dc.subject.por.fl_str_mv |
Circular Economy food scarcity by-products underexploited resources glutenfree flours gluten-free bread plant-based coagulants |
| topic |
Circular Economy food scarcity by-products underexploited resources glutenfree flours gluten-free bread plant-based coagulants |
| description |
Nowadays, food scarcity has been leading the agri-food stakeholders to find solutions in order to face this problem. Circular Economy has been identified as one of the successful strategies to overcome resources scarcity, besides presenting environmental advantages. Thus, applying Circular Economy fundamentals in order to use by-products and underexploited raw materials, can be considered an important contribution to overcome this problem in the future. Moreover, these ingredients fulfill the current food trends from different perspectives and are also recognized for their potential health benefits. Therefore, it is essential to study its application in food products, in order to understand its nutritional and organoleptic performance. The objectives of the present work are: to study the feasibility of a Circular Economy approach in the Agri-food chain, adding value to by-products and underexploited raw materials as flours, to produce gluten-free (GF) bread, improving its characteristics, and also to assess the use of by-products as plant-based coagulants for wastewater treatment. The studied ingredients were acorn flour as an underexploited resource, and apple flour as a by-product, being both naturally GF. Acorn flour characterization results revealed a multipurpose ingredient potential. The nutritional composition presented about 4.3% protein, 11.4% of fat content, particularly monounsaturated and polyunsaturated (oleic and linoleic acids), 11.4% of fiber, mainly insoluble, and also high minerals content (1.6%), in particular, potassium (0.70%). Bioactive compounds and antioxidant capacity have shown high values, with the following phenolic compounds identified by HPLC: rutin, catechin, ellagic acid, gallic acid, and syringic acid. Acorn flour revealed a starch content of about 50%, with spherical shaped granules, and pasting behaviour has presented a high gelatinization temperature (85ºC), with low breakdown, and higher retrogradation consistency. Acorn flour rheological performance has shown a positive impact in the firmness, cohesiveness, and viscoelastic characteristics of the dough, influencing mixing and pasting curves, as well. These effects were revealed with an acorn flour incorporation level of 23% in dough’s formulation. Consequently, GF bread also presented improved technological characteristics. Additionally, nutritional, functional, and sensorial profile have improved with acorn flour incorporation. In particular, acorn flour allowed to develop breads with higher content of fiber, unsaturated fatty acids (oleic and linoleic), minerals, bioactive compounds, and higher antioxidant capacity. Moreover, rutin, catechin, and ellagic acid, were present in the breads with acorn flour incorporation, while gallic acid and syringic acid increased their concentration in comparison with control bread. Combining acorn flour with sourdough, joined both positive features, leading to GF bread with technological, nutritional and functional improved characteristics. Besides the expected acidification from sourdough, acorn flour decreased the rate and extent of starch hydrolysis, increased unsaturated fatty acids, and polyphenols content. Concerning apple flour, its nutritional and functional characterization revealed approximately 1.3% protein, 0.5% of fat content, 12.9% of fiber, mainly insoluble, and 5.5% of ash content, high bioactive compounds and antioxidant capacity. Apple flour was added to GF bread as a sustainable sweetener, acting as a natural sugar source, and leading to a low-intermediate glycemic index GF bread. The results revealed an improvement in technological, and sensorial characteristics of the bread, with an increase of bioactive compounds content and antioxidant capacity. Fulfilling the second objective of the present work, and closing the production cycle, plantbased coagulants from by-products (chestnut burr, acorn peel, olive leaf, and grape stem) were tested in the coagulation-flocculation-decantation of elderberry wastewater treatment process, before applying photo-Fenton methodology. The plant-based coagulants achieved higher efficiency at pH 3.0. The pre-treatment using the CFD process is important to reduce turbidity and total suspended solids in order to improve the efficiency of the photo-Fenton process, due to better penetration of the radiation. The use of plant-based coagulants from by-products, is a promising strategy for wastewater treatment, while at the same time, enabling re-using and adding value to agri-food industry resources, that were being wasted, and reaching environment-friendly solutions as well. |
| publishDate |
2022 |
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2022-10-07T00:00:00Z 2022-10-07 2022-12-09 2024-10-01T11:09:02Z |
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doctoral thesis |
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info:eu-repo/semantics/publishedVersion |
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eng |
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