Metal recycling: Opportunities, limits, infrastructure M Reuter, C Hudson, A Van Schaik, K Heiskanen, C Meskers, ... A report of the working group on the global metal flows to the international …, 2013 | 298 | 2013 |
Challenges of the circular economy: a material, metallurgical, and product design perspective MA Reuter, A van Schaik, J Gutzmer, N Bartie, A Abadías-Llamas Annual Review of Materials Research 49 (1), 253-274, 2019 | 168 | 2019 |
Fundamental limits for the recycling of end-of-life vehicles MA Reuter, A Van Schaik, O Ignatenko, GJ De Haan Minerals engineering 19 (5), 433-449, 2006 | 163 | 2006 |
Dynamic modelling of E-waste recycling system performance based on product design A van Schaik, MA Reuter Minerals Engineering 23 (3), 192-210, 2010 | 141 | 2010 |
The metrics of material and metal ecology: harmonizing the resource, technology and environmental cycles MA Reuter, UMJ Boin, A Van Schaik, E Verhoef, K Heiskanen, Y Yang, ... Elsevier, 2005 | 139 | 2005 |
The time-varying factors influencing the recycling rate of products A Van Schaik, MA Reuter Resources, Conservation and Recycling 40 (4), 301-328, 2004 | 138 | 2004 |
Simulation-based design for resource efficiency of metal production and recycling systems: Cases-copper production and recycling, e-waste (LED lamps) and nickel pig iron MA Reuter, A van Schaik, J Gediga The International Journal of Life Cycle Assessment 20, 671-693, 2015 | 135 | 2015 |
Limits of the circular economy: Fairphone modular design pushing the limits MA Reuter, A van Schaik, M Ballester World of Metallurgy-ERZMETALL 71 (2), 68-79, 2018 | 113 | 2018 |
Product-centric simulation-based design for recycling: case of LED lamp recycling MA Reuter, A van Schaik Journal of Sustainable Metallurgy 1, 4-28, 2015 | 112 | 2015 |
Dynamic modelling and optimisation of the resource cycle of passenger vehicles A Van Schaik, MA Reuter, UMJ Boin, WL Dalmijn Minerals Engineering 15 (11), 1001-1016, 2002 | 102 | 2002 |
The influence of particle size reduction and liberation on the recycling rate of end-of-life vehicles A van Schaik, MA Reuter, K Heiskanen Minerals Engineering 17 (2), 331-347, 2004 | 93 | 2004 |
A simulation model of the comminution–liberation of recycling streams: Relationships between product design and the liberation of materials during recycling MB Castro, JAM Remmerswaal, JC Brezet, A Van Schaik, MA Reuter International journal of mineral processing 75 (3-4), 255-281, 2005 | 89 | 2005 |
Exergy as a tool for evaluation of the resource efficiency of recycling systems O Ignatenko, A Van Schaik, MA Reuter Minerals Engineering 20 (9), 862-874, 2007 | 85 | 2007 |
Recycling indices visualizing the performance of the circular economy A van Schaik, MA Reuter World Met Erzmetall 69 (4), 5-20, 2016 | 73 | 2016 |
The use of fuzzy rule models to link automotive design to recycling rate calculation A Van Schaik, MA Reuter Minerals Engineering 20 (9), 875-890, 2007 | 64 | 2007 |
Material-centric (aluminum and copper) and product-centric (cars, WEEE, TV, lamps, batteries, catalysts) recycling and DfR rules A van Schaik, MA Reuter Handbook of recycling, 307-378, 2014 | 58 | 2014 |
Recycling system flexibility: the fundamental solution to achieve high energy and material recovery quotas O Ignatenko, A Van Schaik, MA Reuter Journal of Cleaner Production 16 (4), 432-449, 2008 | 58 | 2008 |
Opportunities and limits of recycling: A dynamic-model-based analysis M Reuter, A van Schaik MRS bulletin 37 (4), 339-347, 2012 | 56 | 2012 |
Metal Recycling: Opportunities M Reuter, C Hudson, A Van Schaik, K Heiskanen, C Meskers, ... Limits, Infrastructure 37, 38-54, 2013 | 54 | 2013 |
Thermodynamic metrics for measuring the “sustainability” of design for recycling M Reuter, A van Schaik JOM 60 (8), 39-46, 2008 | 49 | 2008 |