2018 IEEE 7th World Conference on Photovoltaic Energy Conversion (WCPEC) (A Joint Conference of 45th IEEE PVSC, 28th PVSEC &Amp 2018
DOI: 10.1109/pvsc.2018.8548307
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Recycling and Reuse potential of NICE PV-Modules

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Cited by 11 publications
(11 citation statements)
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“…The NICE technology uses a polyisobutylene (PIB) material (used and validated in the insulating glass industry) [89], which has sealing properties that guarantee very high and long-term air/humidity tightness as well as the mechanical contact between module components. The NICE configuration enables simplified, manual module disassembly and recovery of components as intact parts, which increases value for recycling and reuse (Figure 6) [90,58]. However, module efficiency declines because of the air gap and electrical connections held together by internal module vacuum pressure; changes in temperature and altitude would change the electrical efficiency [91,92,93,94,90].…”
Section: Figure 4 Proposed Structure Of the Dem Single-cell Module Design [88]mentioning
confidence: 99%
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“…The NICE technology uses a polyisobutylene (PIB) material (used and validated in the insulating glass industry) [89], which has sealing properties that guarantee very high and long-term air/humidity tightness as well as the mechanical contact between module components. The NICE configuration enables simplified, manual module disassembly and recovery of components as intact parts, which increases value for recycling and reuse (Figure 6) [90,58]. However, module efficiency declines because of the air gap and electrical connections held together by internal module vacuum pressure; changes in temperature and altitude would change the electrical efficiency [91,92,93,94,90].…”
Section: Figure 4 Proposed Structure Of the Dem Single-cell Module Design [88]mentioning
confidence: 99%
“…The NICE configuration enables simplified, manual module disassembly and recovery of components as intact parts, which increases value for recycling and reuse (Figure 6) [90,58]. However, module efficiency declines because of the air gap and electrical connections held together by internal module vacuum pressure; changes in temperature and altitude would change the electrical efficiency [91,92,93,94,90].…”
Section: Figure 4 Proposed Structure Of the Dem Single-cell Module Design [88]mentioning
confidence: 99%
“…Glass comprises 79% of the material demand and 67% of life cycle wastes, as seen in the pie charts in Fig 7 . Therefore, glass forms a significant opportunity for rethinking and redesigning toward circularity. Options could include reducing glass thickness (while mitigating the reliability risk due to loss of mechanical strength), remanufacturing glass [36,[80][81][82], and recycling the cullet back into solar or flat glass quality instead of downcycling. Similarly, identifying non-extractive supply chains for PV component materials could increase supply while reducing environmental and social degradation [14,15].…”
Section: Plos Onementioning
confidence: 99%
“…83 Frameless modules help reduce the aluminum content, decrease transportation burdens, eliminate the need for deframing during recycling, and, thereby, simplify the recycling process and decrease the climate and energy footprint. 84 A laminate-free design 85 or replacing the EVA with edge sealants decreases the time and energy required for recycling by avoiding the need for thermal, chemical, or mechanical processes required to eliminate the EVA during PV recycling. 83 The examples mentioned above focus on the currently dominant module technology -crystalline silicon.…”
Section: Design For Circularitymentioning
confidence: 99%
“…77 While commercial processes use combinations of mechanical, thermal, and optical processes, there is scope to facilitate easier delamination through design for circularity approaches such as laminate-free design. 85,255 There is a lack of robust and publicly available assessments of the economic viability of PV recycling at a commercial scale. Such assessments could help in designing better policies and incentives to transition to a CE for PV systems.…”
Section: Recyclingmentioning
confidence: 99%