Publications referenced on our research pages

1.   Guo, M. and N. Shah, Bringing Non-energy Systems into a Bioenergy Value Chain Optimization Framework, in Computer Aided Chemical Engineering, J.K.H. Krist V. Gernaey and G. Rafiqul, Editors. 2015, Elsevier. p. 2351-2356.

2.   Guo, M., G.M. Richter, R.A. Holland, F. Eigenbrod, G. Taylor, and N. Shah, Implementing land-use and ecosystem service effects into an integrated bioenergy value chain optimisation framework. Computers & Chemical Engineering, 2016. 91: p. 392-406.

3.   Delval, F., M. Guo, K.H. van Dam, J. Stray, K. Haigh, J. Görgens, and N. Shah, Integrated multi-level bioenergy supply chain modelling applied to sugarcane biorefineries in South Africa, in Computer Aided Chemical Engineering, K. Zdravko and B. Miloš, Editors. 2016, Elsevier. p. 2037-2042.

4.   Nguyen, R., M. Guo, C. Musikavong, N. Bamroongrugsa, and N. Shah, Supply Chain Optimisation of Nipa-based bioethanol industry in Thailand, in Computer Aided Chemical Engineering, K. Zdravko and B. Miloš, Editors. 2016, Elsevier. p. 913-918.

5.   Lin, Y., M. Guo, N. Shah, and D.C. Stuckey, Economic and environmental evaluation of nitrogen removal and recovery methods from wastewater. Bioresource Technology, 2016. 215: p. 227-238.

6.   Guo, M., D.C. Stuckey, and R.J. Murphy, Is it possible to develop biopolymer production systems independent of fossil fuels? Case study in energy profiling of polyhydroxybutyrate-valerate (PHBV). Green Chemistry, 2013. 15(3): p. 706-717.

7.   Guo, M., A.P. Trzcinski, D.C. Stuckey, and R.J. Murphy, Anaerobic digestion of starch–polyvinyl alcohol biopolymer packaging: Biodegradability and environmental impact assessment. Bioresource Technology, 2011. 102(24): p. 11137-11146.

8.   Puchongkawarin, C., Y. Vaupel, M. Guo, N. Shah, D. Stuckey, and B. Chachuat, Incorporation of Life Cycle Assessment for the Systematic Synthesis of Wastewater Treatment Plants (In press). 2017.

9.   Guo, M., C. Li, J.N.B. Bell, and R.J. Murphy, Influence of Agro-Ecosystem Modeling Approach on the Greenhouse Gas Profiles of Wheat-Derived Biopolymer Products. Environmental Science & Technology, 2012. 46(1): p. 320-330.

10. Guo, M., Life Cycle Assessment (LCA) of Light-weight Eco-composites. 2012: Springer

11. Guo, M., C. Li, G. Facciotto, S. Bergante, R. Bhatia, R. Comolli, C. Ferré, and R. Murphy, Bioethanol from poplar clone Imola: an environmentally viable alternative to fossil fuel? Biotechnology for Biofuels, 2015. 8(1): p. 1-21.

12. Guo, M., J. Littlewood, J. Joyce, and R. Murphy, The environmental profile of bioethanol produced from current and potential future poplar feedstocks in the EU. Green Chemistry, 2014. 16(11): p. 4680-4695.

13. Guo, M. and R.J. Murphy, LCA data quality: Sensitivity and uncertainty analysis. Science of The Total Environment, 2012. 435–436: p. 230-243.

14. Littlewood, J., M. Guo, W. Boerjan, and R.J. Murphy, Bioethanol from poplar: a commercially viable alternative to fossil fuel in the European Union. Biotechnology for Biofuels, 2014. 7(1): p. 113.

15. Patel, B., M. Guo, N. Shah, and K. Hellgardt, Environmental profile of algal Hydrothermal Liquefaction — A country specific case study. Algal Research, 2016. 16: p. 127-140.