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[[Category:Open source appropriate technology]]
[[Category:Open source appropriate technology]]
==Source==
==Source==
 
*  Arthur Alexandre, Fabio A. Cruz Sanchez, Hakim Boudaoud, Mauricio Camargo, and Joshua M. Pearce.Mechanical Properties of Direct Waste Printing of Polylactic Acid with Universal Pellets Extruder: Comparison to Fused Filament Fabrication on Open-Source Desktop Three-Dimensional Printers. ''3D Printing and Additive Manufacturing''.2020 (in press) http://doi.org/10.1089/3dp.2019.0195  [https://www.academia.edu/42858034/Mechanical_Properties_of_Direct_Waste_Printing_of_Polylactic_Acid_with_Universal_Pellets_Extruder_Comparison_to_Fused_Filament_Fabrication_on_Open-Source_Desktop_Three-Dimensional_Printers open access]
*  Samantha C. Dertinger, Nicole Gallup, Nagendra G. Tanikella, Marzio Grasso, Samireh Vahid,Peter J.S.Foot, Joshua M. Pearce. Technical pathways for distributed recycling of polymer composites for distributed manufacturing: Windshield wiper blades. ''Resources, Conservation and Recycling'' 157, 2020, 104810. https://doi.org/10.1016/j.resconrec.2020.104810 [https://www.academia.edu/42220923/Technical_Pathways_for_Distributed_Recycling_of_Polymer_Composites_for_Distributed_Manufacturing_Windshield_Wiper_Blades open access]
*  Samantha C. Dertinger, Nicole Gallup, Nagendra G. Tanikella, Marzio Grasso, Samireh Vahid,Peter J.S.Foot, Joshua M. Pearce. Technical pathways for distributed recycling of polymer composites for distributed manufacturing: Windshield wiper blades. ''Resources, Conservation and Recycling'' 157, 2020, 104810. https://doi.org/10.1016/j.resconrec.2020.104810 [https://www.academia.edu/42220923/Technical_Pathways_for_Distributed_Recycling_of_Polymer_Composites_for_Distributed_Manufacturing_Windshield_Wiper_Blades open access]
* Kyle A. Alvarado, Aron Mill, Joshua M. Pearce, Alexander Vocaet, David Denkenberger. Scaling of Greenhouse Crop Production in Low Sunlight Environments. ''Science of the Total Environment'' 707, 2020, 136012 https://doi.org/10.1016/j.scitotenv.2019.136012 [https://www.academia.edu/41263856/Scaling_of_Greenhouse_Crop_Production_in_Low_Sunlight_Environments open access]
* Kyle A. Alvarado, Aron Mill, Joshua M. Pearce, Alexander Vocaet, David Denkenberger. Scaling of Greenhouse Crop Production in Low Sunlight Environments. ''Science of the Total Environment'' 707, 2020, 136012 https://doi.org/10.1016/j.scitotenv.2019.136012 [https://www.academia.edu/41263856/Scaling_of_Greenhouse_Crop_Production_in_Low_Sunlight_Environments open access]

Revision as of 12:32, 26 April 2020

Source

DIYfood.jpg
Mhi.jpg
Feedingeveryone.jpg David Denkenberger and Joshua Pearce, Feeding Everyone No Matter What: Managing Food Security After Global Catastrophe , 1st Edition, Academic Press, San Diego (2015).


Alt-org.jpg Joshua M. Pearce, “Free and Open Source Appropriate Technology” in Martin Parker, George Cheney, Valerie Fournier and Chris Land (Eds.) Routledge Companion to Alternative Organisation, pp. 308-328, 2014.


 


Nano-globe.png Usman Mushtaq and Joshua M. Pearce “Open Source Appropriate Nanotechnology ” Chapter 9 in editors Donald Maclurcan and Natalia Radywyl, Nanotechnology and Global Sustainability, CRC Press, pp. 191-213, 2012.



 


Fwd.png Joshua M. Pearce in Gupta, V. (Ed). The Future We Deserve: 100 Visions of the Future,  Pediapress.  Open access
  • “Open Source Appropriate Technology”, p. 29.
  • “Solar Photovoltaic Energy Replication”, p. 50.



Cda displayimage.jpg Ha T. Nguyen and Joshua M. Pearce, “Community-scale Wind-powered Desalination for Selected Coastal Mekong Provinces in Vietnam” in M.A. Stewart and P.A. Coclanis (eds.), Environmental Change and Agricultural Sustainability in the Mekong Delta Advances in Global Change Research 2011, Volume 45, Part 4, 371-398,  Springer Science+Business Media B.V. 2011.


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