Your search keyword '"Coles, Stuart R."' showing total 19 results

1. Development of a Polymer Spectral Database for Advanced Chemometric Analysis

Author

Neo, Edward Ren Kai, Low, Jonathan Sze Choong, Goodship, Vannessa, Coles, Stuart R., and Debattista, Kurt

Published

2023

2. Comparison of tools for the sustainability assessment of nanomaterials

Author

Windsor, Rebecca, Cinelli, Marco, and Coles, Stuart R.

Published

2018

3. Co-constructive development of a green chemistry-based model for the assessment of nanoparticles synthesis

Author

Kadziński, Miłosz, Cinelli, Marco, Ciomek, Krzysztof, Coles, Stuart R., Nadagouda, Mallikarjuna N., Varma, Rajender S., and Kirwan, Kerry

Published

2018

4. Extracting valuable compounds from straw degraded by Pleurotus ostreatus

Author

Koncsag, Claudia I., Eastwood, Daniel, Collis, Alana E.C., Coles, Stuart R., Clark, Andrew J., Kirwan, Kerry, and Burton, Kerry

Published

2012

5. Robustness analysis of a green chemistry-based model for the classification of silver nanoparticles synthesis processes.

Author

Cinelli, Marco, Coles, Stuart R., Nadagouda, Mallikarjuna N., Błaszczyński, Jerzy, Słowiński, Roman, Varma, Rajender S., and Kirwan, Kerry

Subjects

*NANOSTRUCTURED materials synthesis, *SILVER nanoparticles, *SUSTAINABLE chemistry, *NANOPARTICLES analysis, *MULTIPLE criteria decision making, *STOCHASTIC processes

Abstract

This paper proposes a robustness analysis based on Multiple Criteria Decision Aiding (MCDA). The ensuing model was used to assess the implementation of green chemistry principles in the synthesis of silver nanoparticles. Its recommendations were also compared to an earlier developed model for the same purpose to investigate concordance between the models and potential decision support synergies. A three-phase procedure was adopted to achieve the research objectives. Firstly, an ordinal ranking of the evaluation criteria used to characterize the implementation of green chemistry principles was identified through relative ranking analysis. Secondly, a structured selection process for an MCDA classification method was conducted, which ensued in the identification of Stochastic Multi-Criteria Acceptability Analysis (SMAA). Lastly, the agreement of the classifications by the two MCDA models and the resulting synergistic role of decision recommendations were studied. This comparison showed that the results of the two models agree between 76% and 93% of the simulation set-ups and it confirmed that different MCDA models provide a more inclusive and transparent set of recommendations. This integrative research confirmed the beneficial complementary use of MCDA methods to aid responsible development of nanosynthesis, by accounting for multiple objectives and helping communication of complex information in a comprehensive and traceable format, suitable for stakeholders and/or decision-makers with diverse backgrounds. [ABSTRACT FROM AUTHOR]

Published

2017

6. A framework of criteria for the sustainability assessment of nanoproducts.

Author

Cinelli, Marco, Coles, Stuart R., Sadik, Omowunmi, Karn, Barbara, and Kirwan, Kerry

Subjects

*SUSTAINABILITY, *NANOTECHNOLOGY, *SUSTAINABLE development, *STATISTICAL correlation, *QUESTIONNAIRES, *ENVIRONMENTAL impact analysis

Abstract

Nanotechnology applications (nanoproducts) have entered the market or are expected to do so in the near future. Robust and science-based criteria are required to appraise and manage their sustainability. This paper describes the approach used to develop a comprehensive and reliable framework of criteria, which was missing until now, for evaluating the sustainability of nanoproducts. A literature review of the frameworks and tools employed to assess nanoproducts sustainability implications was firstly performed to select an initial set of criteria. A survey of experts in the sustainable nanotechnology domain was then conducted to elicit their knowledge in terms of completeness, reliability and validity of the criteria set. Ranking and correlation analyses completed the research by identifying the parameters of major interest as well as the links and dependencies between them. A total of 54 and 65 experts replied to the pilot and main survey, respectively. The reliability and validity of the criteria was assessed with the responses from both questionnaires, whereas the answers from the main survey were used to calculate the relative index of the criteria as well as their correlations. This research resulted in a framework composed of 68 criteria, which are structured into six main areas: (i) economic performance; (ii) environmental impacts, (iii) environmental risk assessment; (iv) human health risk assessment; (v) social implications and (vi) technical performance. This study helps to broaden the understanding on the identification of criteria for sustainability assessments. It also provides those interested in evaluating nanotechnology implications with the basis for real case studies, possibly by integrating available information with the stakeholders using tools that support decision-making. [ABSTRACT FROM AUTHOR]

Published

2016

7. Analysis of the potentials of multi criteria decision analysis methods to conduct sustainability assessment.

Author

Cinelli, Marco, Coles, Stuart R., and Kirwan, Kerry

Subjects

*STAKEHOLDERS, *DATA integration, *MULTIPLE criteria decision making, *ANALYTIC hierarchy process, *SUSTAINABLE development

Abstract

Sustainability assessments require the management of a wide variety of information types, parameters and uncertainties. Multi criteria decision analysis (MCDA) has been regarded as a suitable set of methods to perform sustainability evaluations as a result of its flexibility and the possibility of facilitating the dialogue between stakeholders, analysts and scientists. However, it has been reported that researchers do not usually properly define the reasons for choosing a certain MCDA method instead of another. Familiarity and affinity with a certain approach seem to be the drivers for the choice of a certain procedure. This review paper presents the performance of five MCDA methods (i.e. MAUT, AHP, PROMETHEE, ELECTRE and DRSA) in respect to ten crucial criteria that sustainability assessments tools should satisfy, among which are a life cycle perspective, thresholds and uncertainty management, software support and ease of use. The review shows that MAUT and AHP are fairly simple to understand and have good software support, but they are cognitively demanding for the decision makers, and can only embrace a weak sustainability perspective as trade-offs are the norm. Mixed information and uncertainty can be managed by all the methods, while robust results can only be obtained with MAUT. ELECTRE, PROMETHEE and DRSA are non-compensatory approaches which consent to use a strong sustainability concept, accept a variety of thresholds, but suffer from rank reversal. DRSA is less demanding in terms of preference elicitation, is very easy to understand and provides a straightforward set of decision rules expressed in the form of elementary “if … then …” conditions. Dedicated software is available for all the approaches with a medium to wide range of results capability representation. DRSA emerges as the easiest method, followed by AHP, PROMETHEE and MAUT, while ELECTRE is regarded as fairly difficult. Overall, the analysis has shown that most of the requirements are satisfied by the MCDA methods (although to different extents) with the exclusion of management of mixed data types and adoption of life cycle perspective which are covered by all the considered approaches. [ABSTRACT FROM AUTHOR]

Published

2014

8. On the static and dynamic properties of flax and Cordenka epoxy composites.

Author

Meredith, James, Coles, Stuart R., Powe, Richard, Collings, Ed, Cozien-Cazuc, Sophie, Weager, Brendon, Müssig, Jorg, and Kirwan, Kerry

Subjects

*FIBROUS composites, *STATICS, *FLAX, *COMPOSITE materials, *EPOXY compounds, *CELLULOSE, *ENERGY absorption films

Abstract

Abstract: Fibre reinforced composites have excellent specific properties and are widely sought after by engineers seeking to reduce mass. However, end of life disposal is a significant problem and so research into more sustainable natural fibre composites is extremely topical. This paper examines the applicability of natural fibre composites for high performance structural applications. Woven flax and regenerated cellulose (Cordenka) textiles were pre-impregnated with commercially available epoxy resins and consolidated into test laminates in an autoclave to determine their static (compressive, tensile, flexural) and dynamic (energy absorption) properties. The range of compressive strengths was 77.5–299.6MPa. Tensile strengths ranged from 63 to 92.6MPa and interlaminar shear strength (ILSS) from 10.7 to 23.3MPa. Specific energy absorption (SEA) varied between 21.2–34.2kJ/kg. Biotex flax combined with MTM49 resin matched the SEA of T300 carbon fibre using the same resin system and layup. This work has demonstrated that natural fibre composites have significant scope for use in structural applications but additional work is required on fibre to matrix bonding in order to maximise their properties whilst remaining an environmentally credible option. [Copyright &y& Elsevier]

Published

2013

9. Use of lignin as a compatibiliser in hemp/epoxy composites

Author

Wood, Benjamin M., Coles, Stuart R., Maggs, Steven, Meredith, James, and Kirwan, Kerry

Subjects

*LIGNINS, *BIOCOMPATIBILITY, *COMPOSITE materials, *MECHANICAL behavior of materials, *EPOXY resins, *HEMP, *PLANT fibers

Abstract

Abstract: This study was designed to ascertain if the addition of lignin to hemp-epoxy composites was beneficial to their mechanical properties. Composites were made using a VARTM method with a two-part epoxy resin and a non-woven hemp fibre mat. Lignin was added to the resin before infusion at concentrations varying between 0 and 10% w/w. Samples were then tested according to the relevant ISO standards. There was an increase in impact properties of the fabricated composites with the energy absorbed by the composite containing 5% w/w lignin being 145% higher than the composite with no lignin added. Both flexural and tensile modulus showed an increase when lignin was added up to 2.5% w/w, although there was a drop in both when the lignin was increased to 5% w/w, attributed to poor mixing and infusion due to the increased viscosity of the resin. In all cases, the addition of lignin increased the structural properties of the composites to some degree when compared with composites with no additional lignin. [Copyright &y& Elsevier]

Published

2011

10. 2-Aryl propionamides via 1,4-aryl radical migration from N-arylsulfonyl-2-bromopropionamides

Author

Clark, Andrew J., Coles, Stuart R., Collis, Alana, Fullaway, David R., Murphy, Nicholas P., and Wilson, Paul

Subjects

*AMIDES, *RADICALS (Chemistry), *CHEMICAL reactions, *AMINES, *CUPROUS bromide, *CHEMICAL reduction, *INTERMEDIATES (Chemistry), *SULFUR dioxide

Abstract

Abstract: Reaction of N-alkyl-N-arylsulfonyl-2-halo-propionamides with pentamethyldiethylenetriamine and either CuBr or CuCl leads to 2-aryl propionamides via initial radical generation, 1,4-aryl migration with loss of SO2 and reduction of the intermediate amidyl radical in 40–99% yields. [Copyright &y& Elsevier]

Published

2009

11. 1,4-Aryl migration under copper(I) atom transfer conditions

Author

Clark, Andrew J., Coles, Stuart R., Collis, Alana, Debure, Thomas, Guy, Collette, Murphy, Nicholas P., and Wilson, Paul

Subjects

*COPPER compounds, *SULFONAMIDES, *AMINES, *CHEMICAL reduction, *ACETAMIDE, *LIGANDS (Chemistry), *RING formation (Chemistry)

Abstract

Abstract: Reaction of N-alkyl-N-(trichloroacetyl)arylsulfonamides with CuCl/amines leads to N-alkyl-N-(dichloroacetyl)-arylsulfonamides via reduction or N-alkyl-aryldichloroacetamides via 1,4-aryl migration with loss of SO2. The ratio of reduction to aryl migration is dependent upon the temperature and the ligand utilised. Along with amide bond hydrolysis these reactions may compete when carrying out slow atom transfer radical cyclisation reactions using sulfonamides. [Copyright &y& Elsevier]

Published

2009

12. Copper mediated cyclization of 1-substituted enamides, dienamides and trienamides: regiochemistry, indigoid formation and methyl migration-aromatization.

Author

Geden, Joanna V., Clark, Andrew J., Coles, Stuart R., Guy, Collette S., Ghelfi, Franco, and Thom, Stephen

Subjects

*COPPER compounds, *RING formation (Chemistry), *SUBSTITUTION reactions, *AMIDES, *AROMATIZATION

Abstract

Copper mediated cyclization of activated 1-substituted enamides occurs via a 5- endo radical-polar crossover process. Trichloroacetyl derivatives can undergo further reactions post cyclization (elimination of HCl or dimerization potentially via copper carbenoid intermediates). Reaction of α-halo trienamides derived from β-ionone furnish either β- or γ-lactams via 4- exo or 5- exo cyclizations respectively depending upon the enamide tautomer undergoing reaction. For the less reactive dichloroacetamide derivative a competing regioselective methyl migration-aromatization prior to cyclization is observed. [ABSTRACT FROM AUTHOR]

Published

2016

13. Natural fibre composite energy absorption structures

Author

Meredith, James, Ebsworth, Richard, Coles, Stuart R., Wood, Benjamin M., and Kirwan, Kerry

Subjects

*FIBROUS composites, *ABSORPTION, *GLASS composites, *CARBON fibers, *RENEWABLE energy sources, *GUMS & resins, *SYNTHETIC fibers

Abstract

Abstract: Natural fibre composites represent an environmentally sustainable alternative to conventional glass and carbon fibre composites. Fibres derived from plants are renewable and have low levels of embodied energy compared to synthetic fibres. They are also low cost, low density, have high specific properties, are non-abrasive and less harmful during handling. In motorsport the front and rear impact structures are required to act as both load-bearing members and energy absorption devices. The requirement to absorb large amounts of energy means that the specific energy absorption (SEA) of the material is critical to maintaining a low mass. This work focuses on the potential for natural fibres to replace synthetic fibres for future environmentally friendly energy absorption structures. Conical test specimens of jute, flax and hemp were manufactured using vacuum assisted resin transfer moulding (VARTM) and subjected to impact testing. The natural fibre cones exhibited high values of SEA: unwoven hemp 54.3J/g, woven flax 48.5J/g and woven jute 32.6J/g. The SEA was influenced primarily by fibre volume fraction (Vf) where a high Vf leads to high SEA. Significant variability in SEA resulted from the variation in fibre strength and Vf as a result of the VARTM manufacturing process. Natural fibre composites have the potential to be widely applied as low cost, sustainable energy absorption structures. [Copyright &y& Elsevier]

Published

2012

14. Comparative assessment of the performance of friction materials based on different agricultural wastes.

Author

Adeyemi, Olabisi I., Kirwan, Kerry, Tuersley, Ian, and Coles, Stuart R.

Subjects

*FRICTION materials, *AGRICULTURAL wastes, *CACAO beans, *ENVIRONMENTAL security, *THERMAL stability

Abstract

The composition of friction materials is being revolutionised to exclude contentious components. This work comparatively used palm kernel shells, maize husks, cocoa bean shells and melon shells separately with seven other component materials to achieve novel friction materials. Friction and wear of the friction materials were measured using the test rig designed and constructed in-house for this research. Results showed that the maize husk-based friction material performed greatest in terms of thermal stability, wear, porosity and water absorption. Their thermal stability level indicates suitability for use in low-speed passenger cars and other allied braking applications. Using the selected agricultural residues in place of the contentious components in traditional friction materials would potentially solve health and environmental safety challenges. [ABSTRACT FROM AUTHOR]

Published

2024

15. Cross-modal generative models for multi-modal plastic sorting.

Author

Neo, Edward R.K., Low, Jonathan S.C., Goodship, Vannessa, Coles, Stuart R., and Debattista, Kurt

Subjects

*DEEP learning, *LASER-induced breakdown spectroscopy, *DATABASES, *DATABASE design, *PLASTIC analysis (Engineering), *PLASTIC scrap

Abstract

Automated sorting through chemometric analysis of plastic spectral data could be a key strategy towards improving plastic waste management. Deep learning is a promising chemometric tool, but further development through multi-modal deep learning has been limited by lack of data availability. A new Multi-modal Plastic Spectral Database (MMPSD) consisting of Fourier Transform Infrared (FTIR), Raman and Laser-induced Breakdown Spectroscopy (LIBS) data for each sample in the database is introduced in this work. MMPSD serves as the basis for novel cross-modality generative model technique termed Spectral Conversion Autoencoders (SCAE), which generates synthetic data from data of another modality. SCAE is advantageous over traditional generative models like Variational Autoencoders (VAE), as it can generate class specific synthetic data without the need to train multiple models for each data class. MMPSD also facilitated the exploration of multi-modal deep learning, which improved the classification accuracy as compared to an uni-modal approach from 0.933 to 0.970. SCAE can further be combined with multi-modal methods to achieve a higher accuracy of 0.963 while still using a single sensor to reduce costs, which can be applied for multi-modal augmentation from FTIR sensors used in industrial sorting. [Display omitted] • Chemometrics research limited by small and uni-modal spectral databases. • Multi-modal database aids development of advanced chemometrics tools. • Cross-modal generative and multi-modal deep learning were developed. • Multi-modal fusion of FTIR, Raman and LIBS data improves classification accuracy. • FTIR data augmented with cross-modal synthetic data can be applied industrially. [ABSTRACT FROM AUTHOR]

Published

2023

16. Epoxy resin blends and composites from waste vegetable oil.

Author

Fernandes, Felipe C., Kirwan, Kerry, Lehane, Danielle, and Coles, Stuart R.

Subjects

*VEGETABLE oils, *EPOXY resins, *COMPOSITE materials, *EPOXIDATION, *TENSILE strength

Abstract

Thermosets and composites were prepared from blends of epoxidized waste vegetable oils and diglycidyl ether of bisphenol-A to investigate this material as an alternative triglyceride source for epoxy resins. Purification of the waste oil was developed to remove impurities derived from thermal degradation in the frying process and different epoxidation methodologies were investigated. Effects of epoxidized vegetable oil content (up to 30 wt%) and origin on the tensile properties were studied and revealed that purified waste oils performed similarly to neat oil in contents up to 10 wt%, proving that this strategy does not compromise tensile properties when waste oils are used in suitable proportions. Furthermore, a more prominent plasticizing effect was observed when more than 15 wt% of bio-based resin was used as confirmed by DMA. Composites were prepared with recycled carbon fibres (up to 30 wt%) and thermosets with 10 wt% of bio-based epoxy resins, significantly improving the mechanical properties. [ABSTRACT FROM AUTHOR]

Published

2017

17. Study of combustion performance of biodiesel for potential application in motorsport.

Author

Wood, Benjamin M., Kirwan, Kerry, Maggs, Steven, Meredith, James, and Coles, Stuart R.

Subjects

*COMBUSTION, *PERFORMANCE evaluation, *BIODIESEL fuels, *EMISSIONS (Air pollution), *MOTORSPORTS, *VISCOSITY

Abstract

The variability in viscosity and combustion quality has been identified from the literature as a barrier to the use of biodiesel fuels in motorsport. These parameters can affect performance, emissions and fuel consumption. Diesel engines have had recent success in endurance and touring car racing; biodiesel is an opportunity to increase the sustainability of this emerging area of motorsport. Methyl esters from rapeseed, soybean and sunflower oils were tested alongside EN 590 diesel fuel. Variations in fuel consumption, output torque and power were observed between the fuels. Further tests were carried out on an automotive diesel engine to evaluate the in–cylinder pressures for soybean B100, beef tallow B50 and EN 590 to gain understanding of the reasons behind the performance differences noted in the initial tests. Retarding the start of injection for B50 and B100 biodiesel improved the peak torque by up to 5% enabling the production of equal torque at the same engine speed when compared to EN 590 but with lower peak in–cylinder pressure and a shorter ignition delay. The application of this to motorsport is the potential to achieve higher peak power outputs; the shorter ignition delay and more rapid combustion has the potential to be used to raise the maximum engine speed and therefore the peak power output of diesel engines for motorsport. [ABSTRACT FROM AUTHOR]

Published

2015

18. Recycled carbon fibre for high performance energy absorption

Author

Meredith, James, Cozien-Cazuc, Sophie, Collings, Ed, Carter, Sam, Alsop, Stewart, Lever, Jon, Coles, Stuart R., Wood, Benjamin M., and Kirwan, Kerry

Subjects

*CARBON fiber-reinforced plastics, *MECHANICAL behavior of materials, *ABSORPTION, *GUMS & resins, *MATERIALS compression testing, *FORCE & energy, *FLEXURAL strength, *IMPACT testing

Abstract

Abstract: This paper compares the mechanical properties of virgin and recycled woven carbon fibre prepreg and goes on to assess the potential for recycled carbon fibre reinforced plastic (rCFRP) to be used in high performance energy absorption structures. Three sets of material were examined: fresh containing virgin fibres and resin, aged which was an out of life but otherwise identical roll and recycled which contained recycled fibre and new resin. The compressive strength and modulus of rCFRP were approximately 94% of the values for fresh material. This correlated directly with the results from impact testing where rCFRP conical impact structures were found to have a specific energy absorption of 32.7kJ/kg versus 34.8kJ/kg for fresh material. The tensile and flexural strength of rCFRP were 65% of the value for fresh material. Tensile and flexural moduli of rCFRP were within 90% of fresh material and ILSS of rCFRP was 75% that of fresh. Overall rCFRP has been proved to remain a highly satisfactory engineering material. This is a significant finding as it proves that carbon fibre can be recycled and reused in high performance applications. This has significant implications for use of carbon fibre in the automotive industry where End of Life Vehicle (ELV) legislation requires 85% of materials to be recyclable. This work opens the door to significantly expanded use of carbon fibre in the automotive industry. Of equal significance is the finding that the mechanical properties of fresh and aged carbon fibre were all within ±6% of one another. This highlights an opportunity to understand resin system life in more detail in order to prevent the creation of composite waste at source. [Copyright &y& Elsevier]

Published

2012

19. Improved hydrogen gas production in microbial electrolysis cells using inexpensive recycled carbon fibre fabrics.

Author

Carlotta-Jones, Daniel Indiana, Purdy, Kevin, Kirwan, Kerry, Stratford, James, and Coles, Stuart R.

Subjects

*MICROBIAL cells, *HYDROGEN production, *FIBERS, *WASTEWATER treatment, *WATER utilities, *GRAPHITE

Abstract

• MECs are a novel wastewater treatment technology, producing hydrogen gas. • Recycled carbon fibre (rCF) can be an inexpensive alternative anode material. • MECs with rCF anodes perform significantly better than MECs using graphite anodes. • Normalised rCF anode MEC H 2 gas = 66 L d−1 m−3; Graphite = 3.6 L d−1 m−3. • rCF anodes are up to 93% less expensive than similar graphite anodes. Growing energy demands of wastewater treatment have made it vital for water companies to develop less energy intensive processes for treating wastewater if net zero emissions are to be achieved by 2050. Microbial electrolysis cells (MECs) have the potential to do this by treating water and producing renewable hydrogen gas as a product, but capital and operational costs have slowed their deployment. By using recycled carbon fibre mats, commercially viable MECs can brought closer to reality, where recycled carbon fibre anode MECs treating real wastewater (normalised ~3100 L d−1) were producing 66.77 L H 2 d−1 while graphite felt anode MECs produced 3.65 L H 2 d−1 per 1 m3 reactor, anodes costing £5.53 m−2 and £88.36 m−2 respectively, resulting in a total anode cost saving of 93%. This could incentivise the development of larger pilot systems, opening the door for generating greater value and a more sustainable wastewater treatment industry. [ABSTRACT FROM AUTHOR]

Published

2020