Mounting Systems i. In all installations, the mounting system shall promote ambient air circulation beneath and above modules to enhance efficiency. The lower edge of the panels on the mounting should be designed to eliminate power production losses from snow coverage and provide a comfortable working height for maintenance.
Mounting Systems. The Artist shall provide reliable mounting systems for paintings and photos. If he or she fails to do so, BooART shall provide the mounting systems itself and charge the Artist € 10 for each system.
Mounting Systems. The mounting systems shall be designed and installed such that the PV modules may be fixed or tracking with reliable components proven in similar projects, and shall be designed to resist dead load, live load, corrosion UV degradation, wind loads, and seismic loads appropriate to the geographic area over the expected 25-year lifetime. The Contractor’s design shall sufficiently respond to the design requirements imposed by Federal, State, and local jurisdictions in effect at the time of Agreement execution and any pending code decisions affecting the design shall be identified during Schematic Design. Contractor shall conduct an analysis, and submit evidence thereof, including calculations, of each structure affected by the performance of the scope. The analysis shall demonstrate that existing structures are not compromised or adversely impacted by the installation of PV, equipment, or other activity related to this scope. Mounting systems must also meet the following requirements at a minimum: All structural components, including array structures, shall be designed in a manner commensurate with attaining a minimum 25-year design life. Particular attention shall be given to the prevention of corrosion at the connections between dissimilar metals. Thermal loads caused by fluctuations of component and ambient temperatures shall be accounted for in the design and selection of mounting systems such that neither the mounting system nor the surface on which it is mounted shall degrade or be damaged over time. Each PV module mounting system must be certified by the module manufacturer as (1) an acceptable mounting system that shall not void the module warranty, and (2) that it conforms to the module manufacturer’s mounting parameters. Final coating and paint colors shall be reviewed and approved by the City during Design Review. Painting or other coatings must not interfere with the grounding and bonding of the array. System Security Requirements Contractor shall: Utilize tamper-resistant PV module to rack fasteners for all PV module mounting. Utilize tamper-resistant fasteners for all electrical fittings, pull boxes and other enclosures. Design the solar system so that sensitive components are as protected against vandalism as possible. Position inverter on/off switches so that they are not easily accessible while still maintaining Fire Code. Corrosion Control Each PV system and associated components must be designed and selected to withstand the environmental co...
Mounting Systems. The mounting systems shall be designed and installed such that the PV modules may be fixed or tracking with reliable components proven in similar projects, and shall be designed to resist dead load, live load, corrosion, UV degradation, wind loads, and seismic loads appropriate to the geographic area over the expected 25-year lifetime. Seller shall conduct an analysis, and submit evidence thereof, including calculations, of each structure affected by the performance of the scope described herein, and all attachments and amendments. The analysis shall demonstrate that existing structures are not compromised or adversely impacted by the installation of PV, equipment, or other activity related to this scope. Mounting systems must also meet the following requirements at a minimum: All structural components, including array structures, shall be designed in a manner commensurate with attaining a minimum 25-year design life. Particular attention shall be given to the prevention of corrosion at the connections between dissimilar metals. Thermal loads caused by fluctuations of component and ambient temperatures shall be accounted for in the design and selection of mounting systems such that neither the mounting system nor the surface on which it is mounted shall degrade or be damaged over time. Each PV module mounting system must be certified by the module manufacturer as (1) an acceptable mounting system that shall not void the module warranty, and (2) that it conforms to the module manufacturer’s mounting parameters. For unframed modules, bolted and similar connections shall be non-corrosive and include locking devices designed to prevent twisting over the 25-year design life of the PV system. Seller shall utilize tamper-resistant PV module to rack fasteners for all PV module mounting. Final coating and paint colors shall be reviewed and approved by the Purchaser during Design Review. Painting or other coatings must not interfere with the grounding and bonding of the array.
Mounting Systems. The mounting systems shall be designed and installed such that the PV modules may be fixed or tracking with reliable components proven in similar projects, and shall be designed to resist dead load, live load, corrosion, UV degradation, snow loads, wind loads, and seismic loads appropriate to the geographic area over the expected 25-year lifetime. Contractor shall conduct an analysis, and submit evidence thereof, including calculations, of each structure affected by the performance of the scope described herein, and all attachments and amendments. The analysis shall demonstrate that existing structures are not compromised or adversely impacted by the installation of PV, equipment, or other activity related to this scope. Mounting systems must also meet the following requirements at a minimum: • All structural components, including array structures, shall be designed in a manner commensurate with attaining a minimum 25-year design life. Particular attention shall be given to the prevention of corrosion at the connections between dissimilar metals and to withstanding significant snow loads. • Thermal loads caused by fluctuations of component and ambient temperatures shall be accounted for in the design and selection of mounting systems such that neither the mounting system nor the surface on which it is mounted shall degrade or be damaged over time. • Each PV module mounting system must be certified by the module manufacturer as (1) an acceptable mounting system that shall not void the module warranty, and (2) that it conforms to the module manufacturer’s mounting parameters. • For unframed modules, bolted and similar connections shall be non-corrosive and include locking devices designed to prevent twisting over the 25-year design life of the PV system. • Final coating and paint colors shall be reviewed and approved by the County during Design Review. • Painting or other coatings must not interfere with the grounding and bonding of the array.
Mounting Systems. The mounting systems shall be designed and installed such that the PV modules may be fixed or tracking with reliable components proven in similar projects, and shall be designed to resist dead load, live load, corrosion, UV degradation, wind loads, and seismic loads appropriate to the geographic area over the expected term of the PPA. Mounting systems must also meet the following requirements at a minimum: • All structural components, including array structures, shall be designed in a manner commensurate with attaining a minimum 25-year design life. Particular attention shall be given to the prevention of corrosion at the connections between dissimilar metals. • Thermal loads caused by fluctuations of component and ambient temperatures shall be accounted for in the design and selection of mounting systems such that neither the mounting system nor the surface on which it is mounted shall degrade or be damaged over time. • Each PV module mounting system must be certified by the module manufacturer as (1) an acceptable mounting system that shall not void the module warranty, and (2) that it conforms to the module manufacturer’s mounting parameters. • For unframed modules, bolted and similar connections shall be non-corrosive and include locking devices designed to prevent twisting over the 25-year design life of the PV system. • Offeror shall utilize tamper-resistant PV module to rack fasteners for all PV module mounting. • Final coating and paint colors shall be reviewed and approved by the Department during Design Review. • Painting or other coatings must not interfere with the grounding and bonding of the array.
