Abstract: An air conditioner that cools inside a room wherein a plurality of server apparatuses is arranged, is driven with high efficiency.

Abstract: According to an aspect of the disclosure, a controller configured to detect a current operating window associated with a network device disposed at a site, detect a location of a mobile device associated with a site and alter the current operating window of the network device in response to the detected location. Correspondingly, a method includes detecting a current operating window associated with a network device disposed at a site, detecting a location of a mobile device associated with the site and altering the current operating window of the network device in response to the detected location.

Abstract: A method, system, and computer usable program product for power distribution considering cooling nodes in a data processing environment. A power demand of a data processing environment is determined for a period. The data processing environment includes a set of computing nodes and cooling nodes. A determination is made that the power demand will exceed a limit on electrical power available to the data processing environment for the period if the computing nodes and the cooling nodes in the data processing environment are operated in a first configuration. A first amount of power is redistributed from a cooling node in the data processing environment to a computing node in the data processing environment such that a temperature related performance threshold of a subset of computing nodes is at least met.

Abstract: An air-conditioning control device controls a plurality of air-conditioners (indoor devices) disposed at different locations within a predetermined living room space. A data manager stores location information for each air-conditioner (indoor device). A distance calculator calculates a distance between respective air-conditioners (indoor devices) based on the location information. A control order setter sets, based on the distance between respective air-conditioners (indoor devices) calculated by the distance calculator, a control order of each air-conditioner (indoor device) on which energy-saving control is to be performed in such a way that time spans for performing the energy-saving control that controls respective air-conditioners (indoor devices) for a predetermined time to suppress power consumption in respective sections of the living room space are balanced.

Abstract: The disclosure provides systems and methods of use of an HVAC graphical interface dashboard. In various embodiments, the dashboard includes a weather tab, wherein invoking the weather tab advances to a weather screen. The dashboard also includes an indoor humidity tab, wherein invoking the indoor humidity tab advances to a humidity screen which displays at least a current indoor humidity, wherein the humidity screen interprets a percentage of humidity for a user. A programs tab and a home tab are also provided. At least one attribute of a presentation of the home screen is selectable by a user.

Abstract: An air conditioner and a method of controlling the same are disclosed herein. The method of controlling the air conditioner includes receiving an electric power rate information, and distributing an internal air from a first indoor room to a second indoor room to reduce a temperature difference between a plurality of indoor rooms. During periods of peak power rates, costs associated with operating the air conditioner may be reduced by limiting operation of the indoor and outdoor units, while adjusting the temperatures of the indoor rooms by distributing air among the plurality of the indoor rooms.

Abstract: Methods of placing computer equipment within a server room. The methods may comprise receiving a reservation request for a first piece of computer equipment and selecting a first zone of the server room. The reservation request may specify a type of the first piece of computer equipment. Also, the power dissipated by computer equipment currently present in the first zone plus a power dissipated by the first piece of computer equipment may be less than a maximum power capacity of the first zone. The methods may also comprise selecting a first cabinet within the first zone. The first cabinet may comprise free physical space sufficient for the first piece of computer equipment. In addition, the methods may comprise reserving a portion of the first cabinet for the first piece of computer equipment.

Abstract: A system and method for automatically controlling an energy apparatus using an energy modeling technique is disclosed. The energy management service system for managing the use of energy of each region may include an energy collecting unit to collect energy usage information of an energy apparatus consuming energy in a region through a remote metering server, an apparatus collecting unit to collect control state information of the energy apparatus through a home network device installed in the region to control the operation of the energy apparatus, and an energy management unit to determine an energy usage control factor based on the energy usage trend and to automatically control the operation of the energy apparatus based on the energy usage control factor.

Abstract: In one aspect, a controller for an HVAC system is disclosed. In one embodiment, the controller includes: (1) an interface configured to receive feedback data from operating units of the HVAC system and transmit control data to the operating units, (2) an operation verifier configured to determine an individual operating status for each one of the operating units based on the feedback data and (3) a mode setter configured to distinctly operate each one in a predetermined operating procedure based on the determined operating status for each one.

Abstract: Systems and methods for limiting power consumption by a heating, ventilation, and air conditioning (HVAC) subsystem of a building are shown and described. A feedback controller is used to generate a manipulated variable based on an energy use setpoint and a measured energy use. The manipulated variable may be used for adjusting the operation of an HVAC device.

Abstract: A method performed by a zone controller for a zone of a building for improving energy efficiency in a heating, ventilation, and air conditioning (HVAC) system is provided. The method includes operating in a ventilation mode. A temperature of the zone and outside air conditions for the building are monitored. A determination is made regarding whether to switch from the ventilation mode to an economizing mode based on a first set point for the temperature of the zone and based on the outside air conditions. The first set point is determined based on a second set point for the temperature that is different from the first set point. A determination is made regarding whether to activate the HVAC system based on the second set point.

Abstract: A patient environmental control system, device and method are disclosed.

Abstract: According to an aspect of the disclosure, a zone based energy management system includes controlling at least one network device at a site using the proximity detection of a mobile device which may be based upon the detection of a plurality of zones. The network device may be a thermostat associated with the HVAC system of the site or other energy consuming appliances. Each of the zones may be associated with a corresponding temperature set-point of the thermostat or other energy consuming device where the temperature set point corresponding to a zone may be different from the temperature set points corresponding with each of the other zones.

Abstract: A cooling system for providing conditioned air to a facility includes a chiller or other cooling subsystem, a cooling tower subsystem and one or more air handling units or process cooling units. The cooling subsystem may advantageously include one or more chillers (e.g., variable speed chillers, constant speed chillers, absorption chillers, etc.) and chilled fluid pumps. The cooling tower subsystem includes one or more cooling tower units and condenser fluid pumps. In some implementations, the air handling unit has a cooling coil and a variable volume fan. In some implementations, direct expansion (DX) cooling systems comprise compressors, evaporators and air-cooled, water-cooled or evaporatively-cooled condensing systems. Such systems can be controlled to reduce energy waste, improve occupant comfort and/or improve the thermal characteristics of the process cooling unit.

Abstract: Methods, systems, and apparatus, including computer programs encoded on a storage medium, for generating thermal zones. In one aspect, a method includes identifying a perimeter zone for a first portion of a conceptual representation of a building; and dividing the perimeter zone into a plurality of thermal zones, comprising: determining a plurality of first candidate thermal zones based at least in part on a maximum thermal zone angle threshold that each of the first candidate thermal zones satisfy, determining a plurality of second candidate thermal zones based at least in part on a maximum thermal zone length threshold that each of the second candidate thermal zones satisfy, and selecting a plurality of thermal zones from the first candidate thermal zones and the second candidate thermal zones.

Abstract: The present invention relates to a heat-pump clothes drying machine, in particular a heat-pump arrangement for removing moisture from and heating up the drying air; said heat-pump arrangement comprises a plurality of separate closed-loop circuits, each one of said separate closed-loop circuits comprising at least one compressor (20, 30; 220, 230; 320, 330), at least one evaporator (22, 32; 222, 232; 322, 332), at least one expansion valve (24, 34; 224, 234; 334, 324), and at least one condenser (26, 36; 226, 236; 336, 326).

Abstract: A smart, adaptive control system that monitors and influences physical conditions of an architectural setting. The architectural setting in which the system is deployed typically includes a plurality of private spaces and at least one community space. The individual private spaces, and the community spaces, may include an environmental control device that affects one or more physical conditions of the individual private space. Each private space may also include an environmental sensor that measures a particular physical condition of the private space. The private spaces may also include one or more occupant sensors, which measure either behavioral or physiological parameters of an occupant. The environmental control devices, environmental sensors, and occupant sensors are in communication with a computer. The computer is also in communication with a database, which houses a data set that describes how to best modify the physical conditions of the architectural setting.

Abstract: A method for creating virtual environmental sensor on a power distribution unit is executed by a power distribution unit and has steps of connecting to a network and at least one power-consuming device, searching all environmental sensors through the network, receiving environmental condition messages sent from each environmental sensor, presenting at least one environmental condition range to determine if the environmental condition messages sent from each environmental sensor are out of one of the at least one environmental condition range, and powering on or off a corresponding power-consuming device when each environmental condition message is out of a corresponding environmental condition range. Using the method can create remote environmental sensors networked with the PDU and solve the expansion restriction, spatial limitation and intractable wiring arising from the environmental sensor embedded in the conventional PDU in the form of hardware.

Abstract: A system is provided in which the dampers may be individually controlled. The climate control system may be retrofit to an existing climate control system by connecting the controller to the existing climate control equipment through the thermostat interface. The climate control system may be monitored and set via a remote server.

Abstract: A method and/or apparatus providing for evaluation and illustration of the effects of installing and using specific features of an Energy Management System is disclosed. The system is typical of those utilized in Heating Ventilation and Air Conditioning (HVAC) control systems. In one illustrated embodiment, cost savings that are achievable following installation of an HVAC system with certain selectable features are clearly illustrated and controllable in an easily understood and useful way, including from remote locations such as over the internet.

Abstract: A central air-conditioning system conditions a house having a plurality of rooms. When a person is not present in any of the rooms, each room is conditioned in energy-saving conditioning mode having a low load. On the other hand, when the person is detected in any of the rooms, a controller switches an operating mode for conditioning the room, in which the person is detected, from the energy-saving conditioning to rapid conditioning. Air-conditioner ducts respectively connected to the remaining rooms are closed. Therefore, cold air or warm air from an air-conditioning unit is supplied to the room in which the person is detected, while the cold air or warm air is not supplied to the rooms in which the person is not present. As a result, the room that has been switched from energy-saving conditioning to rapid conditioning is conditioned in a concentrated manner.

Abstract: A building automation system is provided and includes a wall box of a building, a control device configured to be mounted on the wall box, the control device including a micro controller and a memory, the memory having executable instructions stored thereon, which, when executed, cause the micro controller to control an environmental condition within the building, and a configuration memory unit, mounted on the wall box and external from the control device, the configuration memory unit including information stored thereon for configuring the control device, wherein, when executed, the executable instructions further cause the micro controller to access the information when the control device is mounted within the wall box and to configure the control device in accordance with the information.

Abstract: An approach for making shifted schedules from a regular or master schedule of a building automation system. Shifted schedules may be obtained by applying shifts to the scheduled-on and scheduled-off periods of the days in the master schedule. One set of shifts may apply uniformly to all days of the week or several sets of different shifts may apply to various days of the week. Special events with certain scheduled-on and scheduled-off periods and assigned to particular days may override the regular scheduled-on and scheduled-off periods of those days. The shifted schedules may also contain special events with their periods shifted. The master schedule may govern the regular operating hours of a building and the shifted schedules may control, for example, HVAC equipment in particular zones, certain employee areas, parking lot lights, and so on. Changes to the master schedule may be applied as updates to the shifted schedules.

Abstract: An environmental control system according to the present invention is a system for controlling environmental devices by which a work status and a behavior status are monitored and the environmental devices are finely controlled in accordance with the statuses to improve comfort. The environmental control system includes a communication unit, a unit for detecting environments, a unit for detecting a work status, a unit for obtaining power consumption, a unit for determining the control of a device, and a unit for transmitting a control signal, and enables fine control in accordance with a work type.

Abstract: In a method for distributing cooling resources to a plurality of locations using a plurality of hierarchically identified cooling microgrids, conditions detected at the plurality of locations are received. Each level of the hierarchically identified cooling microgrids is a plurality of resource actuators configured to vary distribution of the cooling resources. Settings for the plurality of resource actuators in each of the levels in the cooling microgrid hierarchy that substantially maintain conditions at the plurality of locations within predetermined ranges are determined using a processor, while substantially optimizing at least one measure of performance associated with supplying the cooling resources to the plurality of locations.

Abstract: Methods and systems for monitoring an air filter installed in an HVAC system may include operating the HVAC system in an air filter monitoring mode such as, for example, a fan only mode, and measuring, for example, a differential pressure across the air filter when the HVAC system is operating in the air filter monitoring mode. The method may include evaluating a status of the air filter using, for example, the measured differential pressure value, and in some cases, display the status on a display of an HVAC controller.

Abstract: Controllers for controlling heating, ventilating, air conditioning, and cooling (HVAC) systems are provided. The controllers include graphical user interfaces for user adjustment of system settings. The graphical user interfaces also may be designed to present information that facilitates user understanding of system operations. In certain embodiments, the controllers may allow users to adjust balance point and/or LTCO temperature values. In these embodiments, the graphical user interfaces may include slide bars for adjusting the balance point and/or LTCO temperature values.

Abstract: A system receives an energy demand response schedule, one or more user preferences, and one or more predicted environmental variables into a computer processor. The system generates an optimized energy schedule as a function of the demand response schedule, the user preferences, and the predicted environmental variables. The optimized energy schedule includes one or more of a set point temperature variation in one or more zones, an air handling unit set point temperature variation, a chilled water set point temperature variation, a carbon dioxide level set point variation, a pre-cooling time shift, a pre-cooling duration variation, and a load based optimized chiller schedule. The system transmits the optimized energy schedule to a building management server.

Abstract: A method and apparatus of controlling the electric power usage of electric thermal storage heaters and systems are based on: 1) current and recorded measurements local to the heater and building; 2) current measurements external to the heater and building; 3) forecasts communicated to the apparatus. The method also includes sending out communications about power use as well as various other local measurements. The apparatus has local controls on the electric thermal storage, including but not limited to the relays that control flow of power into the heating elements, a logic module that integrates the local controls, as well as communication channels that extend outside the building to entities capable of providing automatic forecasts and potentially other types of information not available locally.

Abstract: An air conditioner and an associated control method are provided in which performance of one or more indoor units may be adapted so as to minimize power consumption while maintaining cooling/heating effectiveness. The method may include receiving electric power related information, determining whether a current power rate included in the received information is higher than a preset reference value, determining a temperature distribution of at least one space to be air conditioned if the current power rate is higher than the preset reference value, and individually controlling a plurality of indoor units provided to the at least one spaced based on the determined temperature distribution.

Abstract: An air-conditioning controlling system having a controlling device controlling the operation of air-conditioning equipment based on setting information that has been set up in advance, and including an operating terminal wherein setting information can be changed by an occupant of an applicable area of the air-conditioning equipment, connected to the controlling device through a communication circuit, wherein the occupant is able to check what type of control operation is scheduled, prior to changing a setting for the applicable equipment, through scheduled operating information for the future for the specified applicable equipment being sent to the operating terminal that is operated by the occupant, thus enabling the occupant to consider individual countermeasures rather than changing the settings easily, not only making it possible to maintain the energy conservation effect of the air-conditioning controlling system as a whole, but also making it possible to increase the energy conservation awareness of th

Abstract: A zoned HVAC system comprises an HVAC unit including a climate control system and an air mover. In addition, the system comprises a supply air duct in fluid communication with the outlet of the HVAC unit. Further, the system comprises a return air duct in fluid communication with the inlet of the HVAC unit. Still further, the system comprises a plurality of zones positioned between the supply air duct and the return air duct. Moreover, the system comprises a bypass duct extending between the supply air duct and the return air duct. The bypass duct includes an active bypass damper having an open position, a closed position, and a plurality of partially opened positions. The system also comprises a control device configured to control the position of the bypass duct.

Abstract: Demand Flow operates chilled water plants at substantially improved efficiency, regardless of plant load conditions. In general, Demand Flow utilizes an operating strategy which controls chilled and condenser water pumping according to a constant Delta T line, which is typically near or at design Delta T. This reduces or eliminates Low Delta T Syndrome and reduces energy usage by chilled and condenser water pumps for given load conditions. Operation of chilled water pumps in this manner creates a synergy which generally balances flow rates throughout the plant, reducing undesirable bypass mixing and energy usage at air handler fans and other components of the chilled water plant. At plant chillers, application of Demand Flow increases the refrigeration effect through refrigerant sub-cooling and superheating, while preventing stacking. Demand Flow includes a critical zone reset feature which allows the constant Delta T line to be reset to adjust to changing load conditions.

Abstract: Systems, apparatus, and methods of controlling a variable-speed fan of an environmental maintenance module that controls temperatures of a plurality of zones of a building are provided. A first critical zone of the building is identified by analyzing the first zone temperature errors, which are used to determine a final speed setting of the variable-speed fan. Systems, apparatus, and methods of calibrating an environmental maintenance module that controls a temperature of a zone of a building are also provided. A location parameter is calculated for a plurality of zone temperatures, and a scale parameter is computed that quantifies a variation of the zone temperatures relative to a location parameter. A first temperature setpoint for the zone is determined and used in controlling the temperature of the zone.

Abstract: A plurality of air conditioning units (20, 20) are daisy-chain connected to each other by a switching hub (31) provided in an outdoor unit (30). An integrated transmission line (10A) and internal/external transmission lines (10B) are connected to each other by a gateway (32) connected to the switching hub (31) so as to be capable of separating data transmission.

Abstract: The present invention provides a method and system for optimizing building energy usage. The method comprising receiving a plurality of input values associated with a building or plurality of buildings. The method then constructs a thermal and an electrical load model based on the inputs and constructs an overall energy model, the overall energy model being based on the thermal and electrical load models. The method next generates a plurality of demand models and optimizes the demand models using complex multivariate optimization techniques, wherein optimizing is based on usage data and energy rules. Finally, the method displays recommendations based on the optimized model or generating real-time, complementary control instructions based on the optimized model, the determination based on client preferences.

Abstract: An approach for providing setpoint optimization for air handling units. An area for such optimization may incorporate choosing a thermal comfort level index, finding a zone air properties target area and computing a supply air properties target area. Beyond the present approach, an outdoor air portion may be optimized, a feasible psychrometric path found, supply airflow versus temperature optimized, and a controller run to meet setpoints.

Abstract: A method for controlling a controlled variable of a building zone to minimize an error between the controlled variable and a setpoint includes receiving an input at a first interface regarding the controlled variable from a sensor provided in the building. The method further includes using a processing circuit to determine a sign of the error based on the input and the setpoint. The method yet further includes using the processing circuit to cause a controller configured to affect the controlled variable to respond to the error at a first rate when a first sign of the error is present. The method further includes using the processing circuit to cause the controller to respond to the error at a second rate when a second sign of the error is present, the first rate being slower than the second rate. The first sign of the error can be associated with a high energy expenditure required to minimize the error relative to an energy expenditure required to minimize the error relative to the second sign.

Abstract: In a method for managing an infrastructure housing a plurality of disaggregated heat sources, in which a first disaggregated heat source has different heat dissipation characteristics as compared with a second disaggregated heat source, cooling requirements for the disaggregated heat sources are determined, in which the first disaggregated heat source and the second disaggregated heat source are to be positioned in separate homogeneous zones of the infrastructure. In addition, a respective available cooling resource is associated with the disaggregated heat sources based upon the determined cooling requirements of the disaggregated heat sources.

Abstract: A method and system provide for the cooperative powering of unitary air conditioners. The method and system includes coordinating powering of unitary air conditioners in a multiunit building or other low level of aggregation in a power grid. Multiple unitary air conditioners can use a power line communication (PLC) communication module for communicating with other air conditioners that are within the same multiunit building. According to one aspect of the method and system, by using power line communications, multiple unitary air conditioners within a single building can form self-contained local area networks. The LAN can also support a token ring network. According to this token ring network, a predetermined number of tokens can be assigned within the token ring network.

Abstract: An air-conditioner operation controlling device controls each individual air-conditioner in a server room wherein are disposed a plurality of server racks for containing servers and a plurality of air conditioners for cooling the server racks.

Abstract: An HVAC remote control unit for use in an HVAC system is described. In some instances, an HVAC remote control unit may be provided that wirelessly communicates with two or more HVAC controllers and/or other HVAC devices in a zoned HVAC system. When so provided, the remote control unit may be configured to allow a user to select between two or more zones of the zoned HVAC system, and to load one or more of the parameters and/or settings associated with a selected zone via the wireless interface. The remote control unit may be further configured to display at least one of the received parameters and/or settings on a display of the remote control unit, and a user may be allowed to change one or more of the parameters and/or settings that are displayed on the display for a selected zone. The zoned HVAC system may subsequently operate in accordance with the one or more changed parameters and/or settings in the selected zone.

Abstract: The present invention is a system for controlling the heating of a plurality of individual housing units in a building. The system includes at least one heating unit contained in each individual housing unit for heating said individual housing unit and a control unit coupled to each of the heating units for controlling the heat output of the control units. At least one outside temperature sensor is coupled to the control unit for providing the control unit with the measured temperature of the air outside the building. The control unit has an algorithm which is configured to decrease the heat output of the heating units when the temperature of the air outside the building increases beyond a predefined minimum outside temperature.

Abstract: A thermal source provides heat to a heat engine and or one or more thermal demands, including space and water heating and heat storage. Additionally the output of the heat engine may be used for local in situ electricity needs, or directed out over the grid. A system controller monitors conditions of the components of the system, and operates that system in modes that maximize a particular benefit, such as a total accrued desired benefit obtained such as reduced electricity cost, reduced fossil fuel use, maximized return on investment and other factors. The controller may use past history of use of the system to optimize the next mode of operation, or both past and future events such as predicted solar insolation.

Abstract: Regarding rooms other than a room being targeted, a controller controls the rooms in energy-saving conditioning mode when a person is not detected in the rooms, even when the rooms are scheduled to be controlled in ordinary conditioning mode in a temperature control schedule. At this time, when the controller judges that the person has exited the room, the controller controls the targeted room in energy-saving conditioning mode, in rapid conditioning mode. As a result, the room is rapidly conditioned such that the temperature changes from an energy-saving temperature t to an ordinary set temperature by the time the person who has exited the room enters the room. As a result, unnecessary conditioning of the room set to be conditioning in ordinary conditioning mode can be reduced, and energy consumption can be reduced. In addition, comfort of the person entering the room can be ensured by prediction of the movement of the person.

Abstract: An economizer component of a controller used for fuel efficient temperature regulation of a medium circulated through a zone within a hydronic and steam heating system is disclosed. The controller component includes an input interface adapted to determine if the system requires heat based on receiving one or more of a call for heat from the zone, or an indication that a burner of the system is active. The component further includes a dynamic adaptation module configured to provide a burner control signal for heating the system if required. The control signal has an adjustable high limit, and the dynamic adaptation module is configured to increment the adjustable high limit by an increment value, to a value no greater than a maximum high limit, if it is determined that the system requires heat, and decrement the adjustable high limit by a decrement value, to a value no lower than a minimum high limit, if it is determined that the system does not require heat.

Abstract: A server computer may be located at a home or business and may be used for heating the home or business. The server computer may operate a distributed cloud based application and may generate heat in response to application load. The server computer may have an air or water based heat exchanger that may integrate into various heating, ventilation, and air conditioning systems to use the heat generated by the server. In some embodiments, a thermostat may regulate the application load on the server computer as controlled by a cloud based controller.

Abstract: Systems and methods for using a wireless sensor in conjunction with a host controller are described. An illustrative system can include a host controller, a wireless sensor device, and a decoder in communication with the wireless sensor device and the host controller. The host controller may include a remote sensor input that normally would be connected to a wired remote sensor having an expected sensor characteristic. The decoder may receive a wireless signal from the wireless sensor device, and may provide an output signal to the remote sensor input of the host controller that replicate or mimic signals that would be provided by a wired remote sensor having the expected sensor characteristic.

Abstract: In a particular embodiment, a system to dissipate heat in an information handling system includes a first heat-generating component adapted to process first data and a second heat-generating component adapted to process second data. The system also includes a cooling fluid guide including an electroactive material. The cooling fluid guide is adapted to change from a first shape to a second shape, in response to receiving a trigger voltage or in response to no longer receiving the trigger voltage. The system also includes a controller adapted to detect a data load processed at the second heat-generating component and, in response to detecting the data load, to cause the trigger voltage to be received at, or no longer received at, the cooling fluid guide. The cooling fluid guide is adapted to direct an increased portion of cooling fluid toward the first heat-generating component when the cooling fluid guide is in a form of the second shape, as compared to the first shape.

Abstract: The present disclosure provides a method for operating a utility-powered HVAC system for conditioning inside air of a building. In an illustrative but non-limiting example, a nominal schedule is maintained by a local HVAC controller, where the nominal schedule has a number of days and one or more time periods for each of at least some of the days. The nominal schedule also has at least one setpoint associated with each of the time periods. The local HVAC controller is configured to accept manual input from a user via a user interface. The manual input may include accepting entry of a utility pricing schedule that corresponds to scheduled price changes of a utility. The utility pricing schedule may include at least one enhanced pricing time period. Entry of at least one utility price level setpoint offset may also be accepted to correspond to each of the enhanced pricing time periods.