A modular datacenter facility and a method thereof is provided in accordance with some embodiments. The module datacenter facility can be constructed with an initial set of building modules of different types of functionality. A first building module can be a data-floor building module. A first set of sidewall-connected heating, ventilation, and air conditioning (“HVAC”) units can connect to a sidewall of the modular datacenter facility and use electrical power provided by a first electrical power distribution building module to supply conditioned air into an air-supply plenum of the sidewall to cool computing systems housed in the data-floor building module. The first set of the sidewall-connected HVAC units allow for fewer penetrations in a roof of the data-floor building module, thereby minimizing an amount of leaks potentially occurring in the roof of the ceiling, and thereby minimizing risk of any damage to the computing systems.
H05K 7/20 - Modifications en vue de faciliter la réfrigération, l'aération ou le chauffage
E04B 1/18 - Structures comportant des éléments porteurs allongés, p. ex. colonnes, poutres, ossatures
E04F 13/072 - Revêtements ou enduits, p. ex. pour murs ou plafonds constitués d'éléments d'habillage ou de garnissageLeurs bâtisLeurs moyens de fixation constitués d'éléments d'habillage ou de garnissage spécialement adaptés, renforcés ou mis en forme
42 - Services scientifiques, technologiques et industriels, recherche et conception
Produits et services
(1) Wholesale data center solutions to Cloud/SaaS providers, Enterprises and Colocation companies and implementors of Edge solutions across North America. The applicant develops the real estate, land, building and mechanical electrical plant and then contracts for leases and/or service agreements with its clients; Rental of space in a computer co-location facility for containerized data centers of others.
A method, apparatus, and system in which an air dam is incorporated into an air ventilation stream of a datacenter to control the temperature of an interior space of the datacenter. The datacenter may include a raised floor in which the ventilation stream is injected through perforations within the raised floor. An air dam may be positioned at an entry region of the under floor plenum to obstruct the flow of air from a supply air plenum. The air dam is used to create a positive pressure across the raised floor at a substantially constant pressure distribution.
A distribution of the cooling air through one or more perforated tiles or other open areas in the raised floor of the data room is customized by placing one or more magnetic blocking tiles in a pattern to lie on top of the one or more of the perforated floor tiles or other open areas. The cooling air flow through the perforated floor tiles or other open areas to areas where the computing systems are not installed is cut off; and thus, the air flow is directed flow areas in the datacenter where the computing systems are designed to be located and actually are installed in the datacenter. The magnetic blocking tiles have a top surface that is solid and a bottom surface. The magnetic blocking tiles adhere magnetically to either the raised floor or the perforated tiles.
A modular datacenter facility is constructed with a set of building modules of different types of functionality to form an entire datacenter facility having a standardized pre-approved architectural design and layout. All instances of a particular type of building module will have approximately a same floor plan and architectural design. An initial set of building modules can be built upon a parcel of land, and then as needs of space and additional capacity of the modular datacenter facility increase, then at a future point in time additional building modules of the different types can be rapidly added to the initial set of building modules. The building modules of the different types use one or more connecting corridors architected into at least a first type of building module and corresponding aligned doorways between both building modules to interconnect two building modules adjacent and abutted to each other.
A method, apparatus, and system in which an air dam is incorporated into an air ventilation stream of a datacenter to control the temperature of an interior space of the datacenter. The datacenter may include a raised floor in which the ventilation stream is injected through perforations within the raised floor. An air dam may be positioned at an entry region of the under floor plenum to obstruct the flow of air from a supply air plenum. The air dam is used to create a positive pressure across the raised floor at a substantially constant pressure distribution.
A modular datacenter facility is constructed with a set of building modules of different types of functionality to form an entire datacenter facility having a standardized pre-approved architectural design and layout. All instances of a particular type of building module will have approximately a same floor plan and architectural design. An initial set of building modules can be built upon a parcel of land, and then as needs of space and additional capacity of the modular datacenter facility increase, then at a future point in time additional building modules of the different types can be rapidly added to the initial set of building modules. The building modules of the different types use one or more connecting corridors architected into at least a first type of building module and corresponding aligned doorways between both building modules to interconnect two building modules adjacent and abutted to each other.
