Control of Moisture Ingress into Photovoltaic Modules

Michael Kempe

Control of Moisture Ingress into Photovoltaic Modules

Michael Kempe

Materials Science

Research output: Contribution to conference › Paper

Abstract

During long-term exposure of photovoltaic modules to environmental stress, the ingress of water into the module is correlated with decreased performance. By using diffusivity measurements for water through encapsulants such as ethylene vinyl acetate (EVA), we have modeled moisture ingress using a finite-element analysis with atmospheric data from various locations such as Miami, Florida. Thisanalysis shows that because of the high diffusivity of EVA, even an impermeable glass back-sheet alone is incapable of preventing significant moisture ingress from the edges for a 20-year lifecycle. This result has led us to investigate ways to protect modules from moisture through the use of different encapsulating chemistries and materials.

Original language	American English
Number of pages	7
State	Published - 2005
Event	31st IEEE Photovoltaics Specialists Conference and Exhibition - Lake Buena Vista, Florida Duration: 3 Jan 2005 → 7 Jan 2005

Conference

Conference	31st IEEE Photovoltaics Specialists Conference and Exhibition
City	Lake Buena Vista, Florida
Period	3/01/05 → 7/01/05

NLR Publication Number

NREL/CP-520-37390

Keywords

diffusivity measurements
ethylene vinyl acetate
EVA
glass back-sheet
module
moisture ingress
PV

Access to Document

https://www.nrel.gov/docs/fy05osti/37390.pdf

Cite this

@conference{75a8a53fdccd41ae96715352c6c324d2,

title = "Control of Moisture Ingress into Photovoltaic Modules",

abstract = "During long-term exposure of photovoltaic modules to environmental stress, the ingress of water into the module is correlated with decreased performance. By using diffusivity measurements for water through encapsulants such as ethylene vinyl acetate (EVA), we have modeled moisture ingress using a finite-element analysis with atmospheric data from various locations such as Miami, Florida. Thisanalysis shows that because of the high diffusivity of EVA, even an impermeable glass back-sheet alone is incapable of preventing significant moisture ingress from the edges for a 20-year lifecycle. This result has led us to investigate ways to protect modules from moisture through the use of different encapsulating chemistries and materials.",

keywords = "diffusivity measurements, ethylene vinyl acetate, EVA, glass back-sheet, module, moisture ingress, PV",

author = "Michael Kempe",

year = "2005",

language = "American English",

note = "31st IEEE Photovoltaics Specialists Conference and Exhibition ; Conference date: 03-01-2005 Through 07-01-2005",

}

TY - CONF

T1 - Control of Moisture Ingress into Photovoltaic Modules

AU - Kempe, Michael

PY - 2005

Y1 - 2005

N2 - During long-term exposure of photovoltaic modules to environmental stress, the ingress of water into the module is correlated with decreased performance. By using diffusivity measurements for water through encapsulants such as ethylene vinyl acetate (EVA), we have modeled moisture ingress using a finite-element analysis with atmospheric data from various locations such as Miami, Florida. Thisanalysis shows that because of the high diffusivity of EVA, even an impermeable glass back-sheet alone is incapable of preventing significant moisture ingress from the edges for a 20-year lifecycle. This result has led us to investigate ways to protect modules from moisture through the use of different encapsulating chemistries and materials.

AB - During long-term exposure of photovoltaic modules to environmental stress, the ingress of water into the module is correlated with decreased performance. By using diffusivity measurements for water through encapsulants such as ethylene vinyl acetate (EVA), we have modeled moisture ingress using a finite-element analysis with atmospheric data from various locations such as Miami, Florida. Thisanalysis shows that because of the high diffusivity of EVA, even an impermeable glass back-sheet alone is incapable of preventing significant moisture ingress from the edges for a 20-year lifecycle. This result has led us to investigate ways to protect modules from moisture through the use of different encapsulating chemistries and materials.

KW - diffusivity measurements

KW - ethylene vinyl acetate

KW - EVA

KW - glass back-sheet

KW - module

KW - moisture ingress

KW - PV

M3 - Paper

T2 - 31st IEEE Photovoltaics Specialists Conference and Exhibition

Y2 - 3 January 2005 through 7 January 2005

ER -

Control of Moisture Ingress into Photovoltaic Modules

Abstract

Conference

NLR Publication Number

Keywords

Access to Document

Fingerprint

Cite this