Mounting Systems Sample Clauses

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. ii. Modules shall be individually removable for maintenance and repair. iii. The mounting system, regardless of application, shall be designed to meet or exceed requirements of all applicable state and local building codes, including wind speed, snow and seismic load requirements. The Developer shall describe and document the wind and snow loads that the PV System is designed to withstand. iv. For ballasted roof mounted systems, the Developer shall provide a manufacturer’s comprehensive designed system. The Professional Engineer responsible for this portion of work shall also be licensed in the state of Massachusetts. v. In the event an existing lightning protection system is modified or augmented, Developer is responsible for UL recertification. vi. Each module row or column must be separated to minimize shadowing effects on other modules. The spacing between modules shall be noted on the PV layout drawing. vii. For all PV Systems with roof penetration points through previously warranted roofs, and provided that Host has delivered a true, complete and correct copy of such roof warranty to Developer prior to the Effective Date, then the Developer is responsible for designing and installing the PV System in compliance with such that roof warranty to ensure that it is not voided.
Sample 1Sample 2
AutoNDA by SimpleDocs
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.
Sample 1Sample 2
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. ii. Modules shall be individually removable for maintenance and repair. iii. The mounting system, regardless of application, shall be designed to meet or exceed requirements of all applicable state and local building codes, including wind speed, snow and seismic load requirements. The Contractor shall describe and document the wind and snow loads that the PV System is designed to withstand. iv. For ballasted roof mounted systems the Contractor shall provide a manufacturer’s comprehensive designed system. The Professional Engineer responsible for this portion of work shall also be licensed in the state of Massachusetts. v. In the event an existing lightning protection system is modified or augmented, the Contractor is responsible for UL recertification. vi. Each module row or column must be separated to minimize shadowing effects on other modules. The spacing between modules shall be noted on the PV layout drawing.
Sample 1Sample 2
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.
Sample 1Sample 2
Mounting Systems. The mounting systems shall be designed and installed such that the PV modules are fixed with reliable components proven in similar project environments, 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. 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: • UL 2703, Standard for Mounting Systems, Mounting Devices, Clamping/Retention Devices, and Ground Lugs for Use with Flat-Plate Photovoltaic Modules and Panels] • Ground array piles should comply with, American Society of Civil Engineers (ASCE): 7, Minimum Design Loads for Buildings and Other Structures as modified by CBSC and local Governmental Authority requirements for seismic, wind, snow loading and ad-freeze requirements. • Wind pressures and shape factors shall be applied to PV Rack foundation design as specified in the Building Code. • Snow loads shall take drifting into account across the modules by incorporating the tilt angle into the snow design, as well as the effects of snow drifting from the ground at the lower edge of the modules. • 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 withstand 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. • Integrated electrical grounding systems, if any, will be identified during schematic design phase. • 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 connectio...
Sample 1
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
Sample 1
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.
Sample 1
AutoNDA by SimpleDocs

Related to Mounting Systems

  • Accounting System Maintain a system of accounting that enables Borrowers to produce financial statements in accordance with GAAP and maintain records pertaining to the Collateral that contain information as from time to time reasonably may be requested by Lender.

  • Computer Systems (a) Servicer to operate systems (b) Servicer to maintain back-up facilities (c) Servicer to notify location of computer tapes

  • Building Systems The term "Building Systems" means all systems serving the Building in general, including, but not limited to, the fire/life safety, electrical, plumbing, HVAC, including all components thereof and related equipment, including any distribution systems or equipment existing within the Premises.

  • Systems The details of any systems work will be determined after a thorough business analysis. System's work will be billed on a time and material basis. Investors Bank provides an allowance of 10 systems hours for data extract set up and reporting extract set up. Additional hours will be billed on a time and material basis.

  • Moonlighting Employment as a physician in a professional capacity outside of what is outlined in this Agreement, whether temporary special medical activity (“TSMA”) or external moonlighting, must be approved in writing, in advance, by the Departmental Chair, Program Director and Director of Graduate Medical Education (or designee). Even if approved, professional and general liability insurance as outlined in Section 5.4 is not provided to Trainee engaged in external moonlighting. Trainee acknowledges he or she has the responsibility to obtain insurance for such engagement. TSMA and external moonlighting must be included and reported as part of Trainee's hours spent on clinical experience and education. Trainee shall not be required to engage in any outside work.

  • Filing Systems and Equipment A complete and comprehensive catalog of filing systems including vertical and lateral files, bookcases, mobile cabinets and freestanding file cabinets.

  • Infrastructure Infrastructure serves as the foundation and building blocks of an integrated IT solution. It is the hardware which supports Application Services (C.3.2) and IT Management Services (C.3.3); the software and services which enable that hardware to function; and the hardware, software, and services which allow for secure communication and interoperability between all business and application service components. Infrastructure services facilitate the development and maintenance of critical IT infrastructures required to support Federal government business operations. This section includes the technical framework components that make up integrated IT solutions. One or any combination of these components may be used to deliver IT solutions intended to perform a wide array of functions which allow agencies to deliver services to their customers (or users), whether internal or external, in an efficient and effective manner. Infrastructure includes hardware, software, licensing, technical support, and warranty services from third party sources, as well as technological refreshment and enhancements for that hardware and software. This section is aligned with the FEA/DoDEA Technical Reference Model (TRM) which describes these components using a vocabulary that is common throughout the entire Federal government. A detailed review of the TRM is provided in Section J, Attachment 5. Infrastructure includes complete life cycle support for all hardware, software, and services represented above, including planning, analysis, research and development, design, development, integration and testing, implementation, operations and maintenance, information assurance, and final disposition of these components. The services also include administration and help desk functions necessary to support the IT infrastructure (e.g., desktop support, network administration). Infrastructure components of an integrated IT solution can be categorized as follows:

  • Installation Services The Bitstream 2a Service includes a Standard Install as set out below (in each case to the extent that the relevant provisioning works are not already complete for the relevant Service Order).1

  • Accounting System Requirement The Contractor shall maintain an adequate system of accounting and internal controls that meets Generally Accepted Accounting Principles or “GAAP.”

  • Accounting Services The Manager will provide all accounting services customarily required by investment companies, in accordance with the requirements of applicable laws, rules and regulations and with the policies and practices of the Fund as communicated to the Manager from time to time, including, but not limited to, the following: (a) Maintain fund general ledger and journal; (b) Prepare and record disbursements for direct Fund expenses; (c) Prepare daily money transfer; (d) Reconcile all Fund bank and custodian accounts; (e) Assist Fund independent auditors as appropriate; (f) Prepare daily projection of available cash balances; (g) Record trading activity for purposes of determining net asset values and daily dividend; (h) Prepare daily portfolio valuation report to value portfolio securities and determine daily accrued income; (i) Determine the net asset value per share daily or at such other intervals as the Fund may reasonably request or as may be required by law; (j) Prepare monthly, quarterly, semi-annual and annual financial statements; (k) Provide financial information for reports to the Securities and Exchange Commission in compliance with the provisions of the Investment Company Act of 1940 and the Securities Act of 1933, the Internal Revenue Service and any other regulatory or governmental agencies as required; (l) Provide financial, yield, net asset value, and similar information to National Association of Securities Dealers, Inc., and other survey and statistical agencies as instructed from time to time by the Fund; (m) Investigate, assist in the selection of and conduct relations with custodians, depositories, accountants, legal counsel, insurers, banks and persons in any other capacity deemed to be necessary or desirable for the Fund's operations; and (n) Obtain and keep in effect fidelity bonds and directors and officers/errors and omissions insurance policies for the Fund in accordance with the requirements of the Investment Company Act of 1940 and the rules thereunder, as such bonds and policies are approved by the Fund's Board of Directors.

Draft better contracts in just 5 minutes Get the weekly Law Insider newsletter packed with expert videos, webinars, ebooks, and more!