Abstract: Systems and methods for intelligent data center power management and energy market disaster recovery comprised of data collection layer, infrastructure elements, application elements, power elements, virtual machine elements, analytics/automation/actions layer, analytics or predictive analytics engine, automation software, actions software, energy markets analysis layer and software and intelligent energy market analysis elements or software. Plurality of data centers employ systems and methods comprising a plurality of Tier 2 data centers that may be running applications, virtual machines and physical computer systems to enable data center and application disaster recovery from utility energy market outages.

Abstract: Embodiments disclosed include a heat exchange apparatus comprising an equipment-side coolant circuit configured for fluid communication with a first coolant compartment via a first coolant in-flow and out-flow valve. The embodiment further comprises a second coolant compartment operatively coupled to the first coolant compartment and comprising a second coolant in-flow and out-flow valve in fluid communication with a coolant supply source. The first coolant compartment is calibrated to receive hot coolant via the first coolant in-flow valve from a heat transfer element comprised in the equipment side coolant circuit line coupled to a heat generating source and in fluid communication with the first coolant in-flow valve, and the first coolant out-flow valve is calibrated to return the coolant to the heat transfer element comprised in the equipment side coolant circuit line.

Abstract: Systems and methods disclose self-contained data center facility operations, management and build comprising, in the data center facility, installing a plurality of computer servers contained in a corresponding plurality of configurable rack mounted containers, a single or plurality of heat exchangers operatively coupled to the configurable rack mounted containers, and comprised in a thermal heat exchange system which further comprises a closed loop cooling unit. The closed loop cooling unit is caused to absorb heat from the single or plurality of heat exchangers.