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=Abstract= | =Abstract= | ||
In order to alleviate production costs and increase the environmental performance of solar [[photovoltaic]] (PV) manufacturing, an [[eco-industrial park]] for GW-scale production of PV is proposed. This article quantifies the inputs and outputs for the glass manufacturing component of such a system using standard manufacturing techniques. Utilizing [[industrial symbiosis]] in this way, potential reductions for such a plant were found to be about 30,000 tons/year in raw materials and over 220,000 GJ/year in [[embodied energy]]. | In order to alleviate production costs and increase the environmental performance of solar [[photovoltaic]] (PV) manufacturing, an [[eco-industrial park]] for GW-scale production of PV is proposed. This article quantifies the inputs and outputs for the glass manufacturing component of such a system using standard manufacturing techniques. Utilizing [[industrial symbiosis]] in this way, potential reductions for such a plant were found to be about 30,000 tons/year in raw materials and over 220,000 GJ/year in [[embodied energy]]. | ||
[[File:Pv-is-glass.png|750px]]Schematic diagram of [[Industrial symbiosis in photovoltaic manufacturing]]. The highlighted red area is the industries studied in this project. | [[File:Pv-is-glass.png|750px|left]]Schematic diagram of [[Industrial symbiosis in photovoltaic manufacturing]]. The highlighted red area is the industries studied in this project. | ||
=Full text= | =Full text= | ||
* Amir H. Nosrat, Jack Jeswiet, and Joshua M. Pearce, “[http://dx.doi.org/10.1109/TIC-STH.2009.5444358 Cleaner Production via Industrial Symbiosis in Glass and Large-Scale Solar Photovoltaic Manufacturing]”, ''Science and Technology for Humanity (TIC-STH), 2009 IEEE Toronto International Conference'', pp.967-970, 26-27 Sept. 2009. | * Amir H. Nosrat, Jack Jeswiet, and Joshua M. Pearce, “[http://dx.doi.org/10.1109/TIC-STH.2009.5444358 Cleaner Production via Industrial Symbiosis in Glass and Large-Scale Solar Photovoltaic Manufacturing]”, ''Science and Technology for Humanity (TIC-STH), 2009 IEEE Toronto International Conference'', pp.967-970, 26-27 Sept. 2009. [http://mtu.academia.edu/JoshuaPearce/Papers/1563589/Cleaner_production_via_industrial_symbiosis_in_glass_and_largescale_solar_photovoltaic_manufacturing open access] | ||
* Amir H. Nosrat, Robert Andrews, Jack Jeswiet, and Joshua M. Pearce, “Industrial symbiosis of a glass factory and greenhouses in photovoltaic manufacturing”,(under review). | * Amir H. Nosrat, Robert Andrews, Jack Jeswiet, and Joshua M. Pearce, “Industrial symbiosis of a glass factory and greenhouses in photovoltaic manufacturing”,(under review). | ||
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** Joshua M. Pearce, “Industrial Symbiosis for Very Large Scale Photovoltaic Manufacturing”, ''Renewable Energy'' '''33''', pp. 1101–1108, 2008. http://dx.doi.org/10.1016/j.renene.2007.07.002 Open access [http://hdl.handle.net/1974/5305] | ** Joshua M. Pearce, “Industrial Symbiosis for Very Large Scale Photovoltaic Manufacturing”, ''Renewable Energy'' '''33''', pp. 1101–1108, 2008. http://dx.doi.org/10.1016/j.renene.2007.07.002 Open access [http://hdl.handle.net/1974/5305] | ||
* [[Greenhouse waste heat exchange]] | * [[Greenhouse waste heat exchange]] | ||
** Rob Andrews and Joshua Pearce, “Environmental and Economic Assessment of a Greenhouse Waste Heat Exchange”, ''Journal of Cleaner Production'' ( | ** Rob Andrews and Joshua Pearce, “Environmental and Economic Assessment of a Greenhouse Waste Heat Exchange”, ''Journal of Cleaner Production'' '''19''', pp. 1446-1454 (2011). http://dx.doi.org/10.1016/j.jclepro.2011.04.016 Open access: [http://hdl.handle.net/1974/6575] | ||
[[Category: QAS completed projects and publications]] | [[Category: QAS completed projects and publications]] | ||
Revision as of 13:19, 14 December 2012
Abstract
In order to alleviate production costs and increase the environmental performance of solar photovoltaic (PV) manufacturing, an eco-industrial park for GW-scale production of PV is proposed. This article quantifies the inputs and outputs for the glass manufacturing component of such a system using standard manufacturing techniques. Utilizing industrial symbiosis in this way, potential reductions for such a plant were found to be about 30,000 tons/year in raw materials and over 220,000 GJ/year in embodied energy.
Schematic diagram of Industrial symbiosis in photovoltaic manufacturing. The highlighted red area is the industries studied in this project.
Full text
- Amir H. Nosrat, Jack Jeswiet, and Joshua M. Pearce, “Cleaner Production via Industrial Symbiosis in Glass and Large-Scale Solar Photovoltaic Manufacturing”, Science and Technology for Humanity (TIC-STH), 2009 IEEE Toronto International Conference, pp.967-970, 26-27 Sept. 2009. open access
- Amir H. Nosrat, Robert Andrews, Jack Jeswiet, and Joshua M. Pearce, “Industrial symbiosis of a glass factory and greenhouses in photovoltaic manufacturing”,(under review).
See Also
- A literature review pertaining to industrial symbiosis can be found at the Industrial symbiosis literature review
- Industrial symbiosis in photovoltaic manufacturing
- Joshua M. Pearce, “Industrial Symbiosis for Very Large Scale Photovoltaic Manufacturing”, Renewable Energy 33, pp. 1101–1108, 2008. http://dx.doi.org/10.1016/j.renene.2007.07.002 Open access [1]
- Greenhouse waste heat exchange
- Rob Andrews and Joshua Pearce, “Environmental and Economic Assessment of a Greenhouse Waste Heat Exchange”, Journal of Cleaner Production 19, pp. 1446-1454 (2011). http://dx.doi.org/10.1016/j.jclepro.2011.04.016 Open access: [2]