Your search keyword '"Ferreira, Artur"' showing total 5 results

1. Effect of unrefined crude glycerol composition on the properties of polyurethane foams.

Author

Gama, Nuno V., Soares, Belinda, Freire, Carmen S. R., Silva, Rui, Ferreira, Artur, and Barros-Timmons, Ana

Subjects

URETHANE foam manufacturing, URETHANE foam, GLYCERIN, FATTY acids, FATTY acid methyl esters

Abstract

The aim of this study is to evaluate the possibility of using unrefined crude glycerol (CG), a byproduct of the biodiesel industry, in the production of polyurethane foams. In order to assess the suitability of this raw material for the production of polyurethane foams, two samples of crude glycerol with different compositions in glycerol, fatty acids, and methyl esters were used directly, without any pretreatment or purification. Additionally, one of these samples was also submitted to a pre-treatment step in order to evaluate the advantage of purifying the raw material and, for comparison, pure glycerol was also used to prepare polyurethane foams. Both chemical and structural characterizations of the produced foams, as well as the thermomechanical properties determined, showed that unrefined crude glycerol is a suitable ecopolyol for the production of polyurethane foams. Although the presence of fatty acids and esters affects their mechanical performance, this issue can be explored to tune the properties of the ensuing polyurethane foams. Furthermore, the evaluation of the impact of using unrefined CG on the sustainability of polyurethane foams production yielded promising results. [ABSTRACT FROM AUTHOR]

Published

2018

2. Thermal Energy Storage and Mechanical Performance of Crude Glycerol Polyurethane Composite Foams Containing Phase Change Materials and Expandable Graphite.

Author

Gama, Nuno Vasco, Amaral, Cláudia, Silva, Tiago, Vicente, Romeu, Coutinho, João Araújo Pereira, Barros-Timmons, Ana, and Ferreira, Artur

Subjects

GLYCERIN, URETHANE foam, PHASE change materials, THERMAL analysis, ENERGY storage

Abstract

The aim of this study was to enhance the thermal comfort properties of crude glycerol (CG) derived polyurethane foams (PUFs) using phase change materials (PCMs) (2.5–10.0% (wt/wt)) to contribute to the reduction of the use of non-renewable resources and increase energy savings. The main challenge when adding PCM to PUFs is to combine the low conductivity of PUFs whilst taking advantage of the heat released/absorbed by PCMs to achieve efficient thermal regulation. The solution considered to overcome this limitation was to use expandable graphite (EG) (0.50–1.50% (wt/wt)). The results obtained show that the use of PCMs increased the heterogeneity of the foams cellular structure and that the incorporation of PCMs and EG increased the stiffness of the ensuing composite PUFs acting as filler-reinforcing materials. However, these fillers also caused a substantial increase of the thermal conductivity and density of the ensuing foams which limited their thermal energy storage. Therefore, numerical simulations were carried using a single layer panel and the thermal and physical properties measured to evaluate the behavior of a composite PUF panel with different compositions, and guide future formulations to attain more effective results in respect to temperature buffering and temperature peak delay. [ABSTRACT FROM AUTHOR]

Published

2018

3. Environmental assessment of different strategies to produce rigid polyurethane foams using unrefined crude glycerol.

Author

Quinteiro, Paula, Gama, Nuno V., Ferreira, Artur, Dias, Ana Cláudia, and Barros-Timmons, Ana

Subjects

*URETHANE foam, *GLYCERIN, *PRODUCT life cycle assessment

Published

2022

4. Sound absorption properties of polyurethane foams derived from crude glycerol and liquefied coffee grounds polyol.

Author

Gama, Nuno, Silva, Rui, Carvalho, António P.O., Ferreira, Artur, and Barros-Timmons, Ana

Subjects

*ABSORPTION of sound, *URETHANE foam, *POLYOLS, *LIGNINS, *ABSORPTION coefficients

Abstract

The main objective of this study was to evaluate the sound absorption properties of rigid polyurethane foams (PUFs) produced from crude glycerol (CG) and/or liquefied coffee grounds derived polyol (POL). The lignin content of POL proved to have a major influence on the structure and mechanical properties of the foams. Indeed, the POL content increased the cell size of the foams and their stiffness, which subsequently influenced the sound absorption coefficients. The POL derived foam has slightly higher sound absorption coefficient values at lower frequencies, while the CG foam has higher sound absorption coefficient values at higher frequencies. In turn, the foam prepared using a 50/50 mixture of polyols presents slightly higher sound absorption coefficient values in the medium frequencies range due to a balance between the cell structure and the mechanical properties. The results obtained seem to suggest that the mechanisms involved in sound wave absorption depend on the formulation used to prepare the foams. Additionally higher POL contents improved the thermal stability of PUFs as well as their mechanical properties. From this work the suitability of CG and/or POL derived PUFs as sound absorbing materials has been proven. [ABSTRACT FROM AUTHOR]

Published

2017

5. Espumas de poliuretano funcionais derivadas de subprodutos industriais

Author

Melo, Nuno Vasco Costa Gama Batista, Barros-Timmons, Ana Margarida Madeira Viegas de, and Ferreira, Artur Jorge de Faria

Subjects

Crude glycerol, Sustainability, Poliuretanos, Polyurethane foams, Engenharia química, Glicerina, Espumas

Abstract

Doutoramento em Engenharia Química Considerando a dependência da indústria de espumas de poliuretano (PUFs) de recursos fósseis, é necessário encontrar alternativas, substituindo os recursos derivados do petróleo, por recursos renováveis. Além disso, materiais funcionais ecológicos com maior valor acrescentado são cada vez mais necessários. A presente tese aborda estas necessidades explorando a utilização de glicerol não refinado (CG), um subproduto da indústria de biodiesel, como poliol na produção de PUFs. Devido à variabilidade da composição química do CG, o efeito da sua composição nas propriedades das PUFs foi estudado, tendo-se verificado que os ácidos gordos e ésteres metílicos poderão atuar como tensoactivos, homogeneizando a estrutura celular das espumas, baixando assim a sua densidade e condutividade térmica. Seguidamente, foi estudado o efeito dos principais componentes das formulações usadas na produção de espumas sobre as respetivas propriedades utilizando o planeamento de experiências (DoE). Este estudo permitiu verificar que que a densidade e a condutividade térmica das espumas estão relacionadas com as quantidades de agente de expansão e tensoactivo, enquanto que as propriedades mecânicas dependem das quantidades de isocianato e de catalisador. No sentido de preparar novos materiais funcionais e ecológicos com maior valor acrescentado, foram desenvolvidas formulações com o objetivo de melhorar o conforto térmico e a eficiência energética, reduzir a flamabilidade e melhorar o isolamento sonoro das PUFs. Através da adição de materiais de mudança de fase (PCMs) e grafite expansível (EG) não se conseguiu obter melhorias ao nível do conforto térmico das espumas, mas a adição de 5% de EG melhorou consideravelmente as suas propriedades de reação ao fogo. Verificou-se também que as espumas derivadas de CG apresentam boas propriedades de absorção sonora, podendo estas ser melhoradas para baixas frequências pela adição de outro poliol renovável derivado de borras de café. Por fim, foi ainda desenvolvido um método de reciclagem de PUFs, em que o produto obtido foi utilizado com sucesso como substituinte parcial do CG na produção de espumas. In view of the dependence of the polyurethane foams (PUFs) industry on fossil resources, there is a need to find alternatives such as the replacement of petrol derived resources by those from renewable resources. Additionally eco-friendly functional materials with higher added value are ever more in demand. The present project, addresses these needs by exploring the use of crude glycerol (CG), a byproduct of biodiesel industry as the polyol component in the production of PUFs. As the chemical composition of CG is variable, the effect of CG composition on PUFs properties was studied and it was observed that fatty acids and methyl esters can act as surfactants, improving the homogeneity of the cellular structure of the foams and subsequently decreasing their density and their thermal conductivity. Next, the effect of the main components used in PUFs formulations on their properties was studied using the design of experiments (DOE) tool. The results obtained confirmed that the density and thermal conductivity of the foams are related with the blowing agent and surfactant content, while the mechanical properties are associated with the isocyanate and catalyst content. As regards the preparation of new functional and ecological materials with higher added value, formulations have been developed aiming at materials for enhanced thermal comfort and energy efficiency, improved reaction to fire and better sound insulation. The addition of phase change materials (PCMs) and expanded graphite (EG) did not bring improvements regarding the thermal comfort, but the addition of 5% of EG improved the reaction of the foams to fire significantly. Furthermore the CG derived foams presented good sound absorption properties, which can be improved for lower frequencies by the addition of another renewable polyol derived from the liquefaction of coffee grounds. Finally, method for recycling of PUFs was developed and the product obtained was used as a partial substituent of GC in the production of foams

Published

2017