• 专利标题:   Method for producing hybrid solar panel, involves producing photovoltaic panel and solar collector, contacting with accumulated solar energy, curing adhesive layer and placing graphene in surface interface between inserts.
  • 专利号:   PL406325-A1
  • 发明人:   NOWAKOWSKI P, SMULEWICZ E
  • 专利权人:   NOWAKOWSKI P, SMULEWICZ E
  • 国际专利分类:   C08K003/36, C09J183/04, H01L031/05
  • 专利详细信息:   PL406325-A1 08 Jun 2015 H01L-031/05 201545 Pages: 1
  • 申请详细信息:   PL406325-A1 PL406325 29 Nov 2013
  • 优先权号:   PL406325

▎ 摘  要

NOVELTY - A hybrid solar panel producing method involves producing photovoltaic panel and solar collector, contacting with accumulated solar energy in the system of lenses. The photovoltaic panel is combined with a solar collector to obtain adhesive layer. The adhesive layer is subjected to curing, followed by placing graphene in the surface interface between inserts, inserting the surface of graphene in collector panel, and connecting with support structure through thermal insulation pads made of Teflon (RTM:PTFE), spigot outputs, and input channels supporting structure. USE - Method for producing hybrid solar panel. DETAILED DESCRIPTION - A hybrid solar panel producing method involves producing photovoltaic panel and solar collector in form of sub-assemblies refrigerant circuit based on graphene coated pipes with cooling micro channels and thermocouples, contacting with accumulated solar energy in the system of lenses for producing additional electrical energy and collector box. The photovoltaic panel is combined with a solar collector containing heat insulating glue-like consistency of 20 wt.% polyurethane, 20 wt.% polymethylmethacrylate, 50 wt.% acetone, 10 wt.% silicon dioxide and aerogel to obtain adhesive layer. The adhesive layer is subjected to curing at 40-60 degrees C for 20 minutes or less, placing graphene having thickness of 10-100 microns in a surface interface between inserts, followed by inserting 0.4-0.8 m2 the surface of graphene on 1 m2 mutual connector with a collector panel, connecting with support structure through thermal insulation pads made of Teflon (RTM: PTFE), spigot outputs, and input channels supporting structure, where the supporting structures are part of the collector of thermal energy conversion from solar energy.