Mingming Hu
Universitair hoofddocent
- Naam
- Dr. M. Hu
- Telefoon
- +31 71 527 1497
- hu@cml.leidenuniv.nl
- ORCID iD
- 0000-0003-0021-0633
Meer informatie over Mingming Hu
Nieuws
Promovendi
Voor meer informatie, zie de Engelse versie.
Universitair hoofddocent
- Wiskunde en Natuurwetenschappen
- Centrum voor Milieuwetenschappen Leiden
- CML/Industriele Ecologie
- Wong D.H., Zhang C., Di Maio F. & Hu M. (2024), Potential of BREEAM-C to support building circularity assessment: insights from case study and expert interview, Journal of Cleaner Production 442: 140836.
- Wong D.H., Zhang C., Di Maio F. & Hu M. (2024), Potential of BREEAM-C to support building circularity assessment: insights from case study and expert interview, Journal of Cleaner Production 442: 140836.
- Jin Y., Yu Z., Yang G., Yao X., Hu M, Remme R.P., Bodegom P.M. van, Morpurgo J., Huang Y., Wang J. & Cui S. (2024), Quantifying physiological health efficiency and benefit threshold of greenspace exposure in typical urban landscapes, Environmental Pollution 362: 124726 (124726).
- Tukker A., Behrens P., Deetman S.P., Hu M., Migoni Alejandre E., Meide M. van der, Zhong X. & Zhang C. (2023), Circular construction: six key recommendations, One Earth 6: 1425-1429.
- Yang X., Hu M., Shan W., Zhang C., Lee T. & Pan Y. (2023), Integrating bottom-up building stock model with logistics networks to support the site selection of circular construction hub, Journal of Cleaner Production 430: 139677.
- Zhang C., Hu M., Meide M. van der, Di Maio F., Yang X., Gao X., Li K., Zhao H. & Li C. (2023), Life cycle assessment of material footprint in recycling: a case of concrete recycling, Waste Management 155: 311-319.
- Slootweg H.J., Hu M., Halleck Vega S., Zelfde M. van 't, Leeuwen E. van & Tukker A. (2023), Identifying the geographical potential of rooftop systems: space competition and synergy, Urban Forestry and Urban Greening 79: 127816.
- Xu C., Behrens P.A., Gasper P., Smith K., Hu M., Tukker A. & Steubing B.R.P. (2023), Electric vehicle batteries alone could satisfy short-term grid storage demand by as early as 2030, Nature Communications 14: 119.
- Zhang C., Hu M., Di Maio F., Sprecher B., Yang X. & Tukker A. (2022), An overview of the waste hierarchy framework for analyzing the circularity in construction and demolition waste management in Europe, Science of the Total Environment 803: 149892.
- Yang X., Hu M., Tukker A., Zhang C., Huo T.F. & Steubing B.R.P. (2022), A bottom-up dynamic building stock model for residential energy transition: a case study for the Netherlands, Applied Energy 306(Part A): 118060.
- Yang X., Hu M., Zhang C. & Steubing B.R.P. (2022), Key strategies for decarbonizing the residential building stock: results from a spatiotemporal model for Leiden, the Netherlands, Resources, Conservation and Recycling 184: 106388.
- Yang X., Hu M., Zhang C. & Steubing B.R.P. (2022), Urban mining potential to reduce primary material use and carbon emissions in the Dutch residential building sector, Resources, Conservation and Recycling 180: 106215.
- Xu C., Steubing B.R.P., Hu M., Harpprecht C.I., Meide M.T. van der & Tukker A. (2022), Future greenhouse gas emissions of automotive lithium-ion battery cell production, Resources, Conservation and Recycling 187: 106606.
- Xu C., Dai Q., Gaines L., Hu M., Tukker A. & Steubing B.R.P. (2022), Reply to: concerns about global phosphorus demand for lithium-iron-phosphate batteries in the light electric vehicle sector, Communications Materials 3(1): 15 (15).
- Xu C., Dai Q., Gaines L., Hu M., Tukker A. & Steubing B.R.P. (2022), Author correction: reply to: concerns about global phosphorus demand for lithium-iron-phosphate batteries in the light electric vehicle sector, Communications Materials 3(1): 36 (36).
- Zhang C., Hu M., Sprecher B., Yang X., Zhong X., Li C. & Tukker A. (2021), Recycling potential in building energy renovation: a prospective study of the Dutch residential building stock up to 2050, Journal of Cleaner Production 301: 126835.
- Zhang C., Hu M., Laclau B., Garnesson T., Yang X. & Tukker A. (2021), Energy-carbon-investment payback analysis of prefabricated envelope-cladding system for building energy renovation: cases in Spain, the Netherlands, and Sweden, Renewable and Sustainable Energy Reviews 145: 111077.
- Zhong X., Hu M., Deetman S.P., Dias Rodrigues J.F., Lin H., Tukker A. & Behrens P.A. (2021), The evolution and future perspectives of energy intensity in the global building sector 1971–2060, Journal of Cleaner Production 305: 127098.
- Zhong X., Hu M., Deetman S.P., Steubing B.R.P., Lin H., Aguilar Hernandez G.A., Harpprecht C.I., Zhang C., Tukker A. & Behrens P.A. (2021), Global greenhouse gas emissions from residential and commercial building materials and mitigation strategies to 2060, Nature Communications 12: 6126.
- Zhang C., Hu M., Yang X., Amati A. & Tukker A. (2020), Life cycle greenhouse gas emission and cost analysis of prefabricated concrete building façade elements, Journal of Industrial Ecology 24(5): 1016-1030.
- Zhang C., Hu M., Yang X., Miranda Xicotencatl B., Sprecher B., Di Maio F., Zhong X. & Tukker A. (2020), Upgrading construction and demolition waste management from downcycling to recycling in the Netherlands, Journal of Cleaner Production 266: 121718.
- Zhang C., Hu M., Laclau B., Garnesson T., Yang X., Li C. & Tukker A. (2020), Environmental life cycle costing at the early stage for supporting cost optimization of precast concrete panel for energy renovation of existing buildings, Journal of Building Engineering 35: 102002.
- Xu C., Dai Q., Gaines L., Hu M., Tukker A. & Steubing B.R.P. (2020), Future material demand for automotive lithium-based batteries, Communications Materials 1: 99.
- Yang X., Hu M., Heeren N., Zhang C., Verhagen T.J., Tukker A. & Steubing B.R.P. (2020), A combined GIS-archetype approach to model residential space heating energy: a case study for the Netherlands including validation, Applied Energy 280: 115953.
- Wang J., Dias Rodrigues J.F., Hu M., Behrens P.A. & Tukker A. (2019), The evolution of Chinese industrial CO2 emissions 2000–2050: A review and meta-analysis of historical drivers, projections and policy goals, Renewable and Sustainable Energy Reviews 116: 1364-0321.
- Zhang C., Hu M., Dong L., Gebremariam A., Xicotencatl B.M., Di Maio F. & Tukker A. (2019), Eco-efficiency assessment of technological innovations in high-grade concrete recycling, Resources, Conservation and Recycling 149: 649-663.
- Wang J., Hu M., Tukker A. & Dias Rodrigues J.F. (2019), The impact of regional convergence in energy-intensive industries on China's CO2 emissions and emission goals, Energy Economics 80: 512-523.
- Zhang C., Hu M., Dong L., Xiang P., Zhang Q., Wu J., Li B. & Shi S. (2018), Co-benefits of urban concrete recycling on the mitigation of greenhouse gas emissions and land use change: A case in Chongqing metropolis, China, Journal of Cleaner Production 201: 481-498.
- Dong L., Dai M., Liang H., Zhang N., Mancheri N.A., Ren J., Dou Y. & Hu M.M. (2017), Material flows and resource productivity in China, South Korea and Japan from 1970 to 2008: A transitional perspective, Journal of Cleaner Production 141: 1164-1177.
- Dong L., Liang H., Zhang L., Liu Z., Gao Z. & Hu M. (2017), Highlighting regional eco-industrial development: Life cycle benefits of an urban industrial symbiosis and implications in China, Ecological Modelling 361: 164-176.
- Hu M., Kleijn R., Bozhilova-Kisheva K.P. & Di Maio F. (2013), An approach to LCSA: the case of concrete recycling, International Journal of Life Cycle Assessment 18(9): 1793-1803.
- Hu M. (2011), Dynamic MFA to Support Sustainable Built Environment Development, With Case Studies on Chinese Housing Stock Dynamics. Saarbrücken,Germany: LAP LAMBERT Academic Publishing.
- Piscaer B., Hu M. & Haas M. (2011), Sustainable construction issues in China. In: Liu M., Ness D. & Huang H. (red.), The Green Economy and Its Implementation in China. Singapore: Enrich Professional Publishing. 151-166.
- Hu M., Bergsdal H., Voet E. van der, Huppes G. & Muller D.B. (2010), Dynamics of urban and rural housing stocks in China, Building Research and Information 38(3): 301-317.
- Hu M. (18 mei 2010), Dynamic material flow analysis to support sustainable built environment development (Dissertatie. Instititute of Environmental Sciences (CML), Faculty of Sciences, Leiden University). Promotor(en) en copromotor(en): Verduyn Lunel S.M. & Haas M., Voet E. van der & Huppes G.
- Hu M., Pauliak S., Wang T., Huppes G., Voet E. van der & Müller D.B. (2010), Iron and steel in Chinese residential buildings: a dynamic analysis, Resources, Conservation and Recycling 54(9): 591-600.
- Hu M., Voet E. van der & Huppes G. (2010), Dynamic material flow analysis for strategic construction and demolition waste management in Beijing, Journal of Industrial Ecology 14(3): 440-456.