Patents Assigned to Con Edison Battery Storage, LLC
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Patent number: 11681264Abstract: An energy storage system for a building includes a battery asset configured to store electricity and discharge the stored electricity for use in satisfying a building electric load. The system includes a planning tool configured to identify one or more selected functionalities of the energy storage system and generate a cost function defining a cost of operating the energy storage system over an optimization period. The cost function includes a term for each of the selected functionalities. The planning tool is configured to generate optimization constraints based on the selected functionalities, attributes of the battery asset, and the electric energy load to be satisfied. The planning tool is configured to optimize the cost function to determine optimal power setpoints for the battery asset at each of a plurality of time steps of the optimization period.Type: GrantFiled: October 4, 2021Date of Patent: June 20, 2023Assignee: Con Edison Battery Storage, LLCInventors: Mohammad N. Elbsat, Michael J. Wenzel, Kirk H. Drees
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Patent number: 11502534Abstract: An electrical energy storage system includes a battery configured to store electrical energy and discharge the stored electrical energy to an external system, a switch electrically connected to the battery and operable to connect the battery to the external system and disconnect the battery from the external system, a sensor configured to measure an open circuit voltage of the battery while the battery is disconnected from the external system, and a controller. The controller is configured to predict usage of the battery at a plurality of future times, schedule a time to disconnect the battery from the external system based on the predicted usage of the battery at the plurality of future times, operate the switch to disconnect the battery at the scheduled time, and obtain a measurement of the open circuit voltage of the battery while the battery is disconnected.Type: GrantFiled: May 28, 2019Date of Patent: November 15, 2022Assignee: Con Edison Battery Storage LLCInventors: Ryan A. Baumgartner, Michael J. Wenzel
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Patent number: 11296511Abstract: An electrical energy storage system includes a battery configured to store and discharge electric power to an energy grid, a power inverter configured to use battery power setpoints to control an amount of the electric power stored or discharged from the battery, the battery power setpoints comprising at least one of frequency regulation power setpoints and ramp rate control power setpoints, and a controller. The controller is configured to use a battery life model to generate the battery power setpoints for the power inverter. The battery life model includes one or more variables that depend on the battery power setpoints.Type: GrantFiled: November 30, 2020Date of Patent: April 5, 2022Assignee: Con Edison Battery Storage, LLCInventors: Michael J. Wenzel, Brett M. Lenhardt, Kirk H. Drees
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Patent number: 11258287Abstract: A predictive power control system includes a battery configured to store and discharge electric power, a battery power inverter configured to control an amount of the electric power stored or discharged from the battery, and a controller. The controller is configured to predict a power output of a photovoltaic field and use the predicted power output of the photovoltaic field to determine a setpoint for the battery power inverter.Type: GrantFiled: June 29, 2020Date of Patent: February 22, 2022Assignee: Con Edison Battery Storage, LLCInventors: Mohammad N. ElBsat, Michael J. Wenzel, Brett M. Lenhardt
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Patent number: 11258260Abstract: An optimization controller for a battery includes a high level controller configured to receive a regulation signal from an incentive provider cat a data fusion module, determine statistics of the regulation signal, and use the statistics of the regulation signal to generate a frequency response midpoint. The optimization controller further includes a low level controller configured to use the frequency response midpoint to determine optimal battery power setpoints and use the optimal battery power setpoints to control an amount of electric power stored or discharged from the battery during a frequency response period.Type: GrantFiled: September 15, 2020Date of Patent: February 22, 2022Assignee: Con Edison Battery Storage, LLCInventors: Radu Dorneanu, Michael J. Wenzel, Mohammad N. Elbsat, Kirk H. Drees, Andrew J. Przybylski
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Patent number: 11137731Abstract: An energy storage system for a building includes a battery asset configured to store electricity and discharge the stored electricity for use in satisfying a building electric load. The system includes a planning tool configured to identify one or more selected functionalities of the energy storage system and generate a cost function defining a cost of operating the energy storage system over an optimization period. The cost function includes a term for each of the selected functionalities. The planning tool is configured to generate optimization constraints based on the selected functionalities, attributes of the battery asset, and the electric energy load to be satisfied. The planning tool is configured to optimize the cost function to determine optimal power setpoints for the battery asset at each of a plurality of time steps of the optimization period.Type: GrantFiled: September 24, 2019Date of Patent: October 5, 2021Assignee: Con Edison Battery Storage, LLCInventors: Mohammad N. Elbsat, Michael J. Wenzel, Kirk H. Drees
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Patent number: 11085969Abstract: An electrical energy storage system includes a battery container, one or more temperature sensors, and a controller. The battery container includes one or more batteries configured to store and discharge electrical energy. The temperature sensors are configured to measure one or more temperatures associated with the battery container. The controller is configured to estimate a rate of heat generation by the one or more batteries based on the measured temperatures, monitor an electric current provided to the one or more batteries, and estimate a resistance of the one or more batteries based on the estimated rate of heat generation and the electric current.Type: GrantFiled: October 8, 2019Date of Patent: August 10, 2021Assignee: CON EDISON BATTERY STORAGE, LLCInventor: Kirk H. Drees
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Patent number: 11009251Abstract: A frequency response optimization system includes a battery configured to store and discharge electric power, a power inverter configured to control an amount of the electric power stored or discharged from the battery at each of a plurality of time steps during a frequency response period, and a frequency response controller. The frequency response controller is configured to receive a regulation signal from an incentive provider, determine statistics of the regulation signal, use the statistics of the regulation signal to generate an optimal frequency response midpoint that achieves a desired change in a state-of-charge (SOC) of the battery while participating in a frequency response program, and use the midpoints to determine optimal battery power setpoints for the power inverter. The power inverter is configured to use the optimal battery power setpoints to control the amount of the electric power stored or discharged from the battery.Type: GrantFiled: March 17, 2020Date of Patent: May 18, 2021Assignee: Con Edison Battery Storage, LLCInventors: Michael J. Wenzel, Kirk H. Drees, Mohammad N. Elbsat
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Patent number: 10855081Abstract: An electrical energy storage system includes a battery configured to store and discharge electric power to an energy grid, a power inverter configured to use battery power setpoints to control an amount of the electric power stored or discharged from the battery, the battery power setpoints comprising at least one of frequency regulation power setpoints and ramp rate control power setpoints, and a controller. The controller is configured to use a battery life model to generate the battery power setpoints for the power inverter. The battery life model includes one or more variables that depend on the battery power setpoints.Type: GrantFiled: April 2, 2019Date of Patent: December 1, 2020Assignee: Con Edison Battery Storage LLCInventors: Michael J. Wenzel, Brett M. Lenhardt, Kirk H. Drees
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Patent number: 10778012Abstract: An optimization controller for a battery includes a high level controller configured to receive a regulation signal from an incentive provider at a data fusion module, determine statistics of the regulation signal, and use the statistics of the regulation signal to generate a frequency response midpoint. The optimization controller further includes a low level controller configured to use the frequency response midpoint to determine optimal battery power setpoints and use the optimal battery power setpoints to control an amount of electric power stored or discharged from the battery during a frequency response period.Type: GrantFiled: July 28, 2017Date of Patent: September 15, 2020Assignee: Con Edison Battery Storage, LLCInventors: Radu Dorneanu, Michael J. Wenzel, Mohammad N. Elbsat, Kirk H. Drees, Andrew J. Przybylski
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Patent number: 10742055Abstract: A frequency regulation and ramp rate control system includes a battery configured to store and discharge electric power, a battery power inverter configured to control an amount of the electric power in the battery, a photovoltaic power inverter configured to control an electric power output of a photovoltaic field, and a controller. The controller generates a battery power setpoint for the battery power inverter and a photovoltaic power setpoint for the photovoltaic power inverter. The generated setpoints cause the battery power inverter and the photovoltaic power inverter to simultaneously perform both frequency regulation and ramp rate control.Type: GrantFiled: August 25, 2016Date of Patent: August 11, 2020Assignee: Con Edison Battery Storage, LLCInventors: Mohammad N. ElBsat, Michael J. Wenzel, Brett M. Lenhardt
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Patent number: 10700541Abstract: A predictive power control system includes a battery configured to store and discharge electric power, a battery power inverter configured to control an amount of the electric power stored or discharged from the battery, and a controller. The controller is configured to predict a power output of a photovoltaic field and use the predicted power output of the photovoltaic field to determine a setpoint for the battery power inverter.Type: GrantFiled: August 25, 2016Date of Patent: June 30, 2020Assignee: Con Edison Battery Storage, LLCInventors: Mohammad N. ElBsat, Michael J. Wenzel, Brett M. Lenhardt
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Patent number: 10591178Abstract: A frequency response optimization system includes a battery configured to store and discharge electric power, a power inverter configured to control an amount of the electric power stored or discharged from the battery at each of a plurality of time steps during a frequency response period, and a frequency response controller. The frequency response controller is configured to receive a regulation signal from an incentive provider, determine statistics of the regulation signal, use the statistics of the regulation signal to generate an optimal frequency response midpoint that achieves a desired change in a state-of-charge (SOC) of the battery while participating in a frequency response program, and use the midpoints to determine optimal battery power setpoints for the power inverter. The power inverter is configured to use the optimal battery power setpoints to control the amount of the electric power stored or discharged from the battery.Type: GrantFiled: December 20, 2018Date of Patent: March 17, 2020Assignee: Con Edison Battery Storage, LLCInventors: Michael J. Wenzel, Kirk H. Drees, Mohammad N. ElBsat
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Patent number: 10594153Abstract: A frequency response optimization system includes a battery configured to store and discharge electric power, a power inverter configured to control an amount of the electric power stored or discharged from the battery, a high level controller, and a low level controller. The high level controller is configured to receive a regulation signal from an incentive provider, determine statistics of the regulation signal, and use the statistics of the regulation signal to generate an optimal frequency response midpoint. The optimal midpoint achieves a desired change in the state-of-charge of the battery while participating in a frequency response program. The low level controller is configured to use the midpoints to determine optimal battery power setpoints for the power inverter. The power inverter is configured to use the optimal battery power setpoints to control an amount of the electric power stored or discharged from the battery.Type: GrantFiled: July 28, 2017Date of Patent: March 17, 2020Assignee: Con Edison Battery Storage, LLCInventors: Radu Dorneanu, Michael J. Wenzel, Mohammad N. Elbsat, Kirk H. Drees
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Patent number: 10564610Abstract: A photovoltaic energy system includes a photovoltaic field configured to convert solar energy into electrical energy, cloud detectors configured to detect a cloud approaching the photovoltaic field, and a controller. The controller uses the cloud detectors to predict a disturbance in the electric power output of the photovoltaic energy system. The controller determines a time at which the disturbance is expected to occur and determines an amount by which the electric power output is expected to decrease. The controller can preemptively adjust the electric power output of the photovoltaic energy system in accordance with a predetermined ramp rate.Type: GrantFiled: August 25, 2016Date of Patent: February 18, 2020Assignee: Con Edison Battery Storage, LLCInventor: Kirk H. Drees
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Patent number: 10554170Abstract: A photovoltaic energy system includes a photovoltaic field configured to convert solar energy into electrical energy, one or more solar intensity sensors configured to measure solar intensity and detect a cloud approaching the photovoltaic field, and a controller. The controller receives input from the solar intensity sensors and predicts a change in solar intensity within the photovoltaic field before the change in solar intensity within the photovoltaic field occurs. The controller is configured to preemptively adjust an electric power output of the photovoltaic energy system in response to predicting the change in solar intensity within the photovoltaic field.Type: GrantFiled: August 25, 2016Date of Patent: February 4, 2020Assignee: Con Edison Battery Storage, LLCInventor: Kirk H. Drees
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Patent number: 10436851Abstract: An electrical energy storage system includes a battery container, one or more temperature sensors, and a controller. The battery container includes one or more batteries configured to store and discharge electrical energy. The temperature sensors are configured to measure one or more temperatures associated with the battery container. The controller is configured to estimate a rate of heat generation by the one or more batteries based on the measured temperatures, monitor an electric current provided to the one or more batteries, and estimate a resistance of the one or more batteries based on the estimated rate of heat generation and the electric current.Type: GrantFiled: January 13, 2017Date of Patent: October 8, 2019Assignee: Con Edison Battery Storage, LLCInventor: Kirk H. Drees
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Patent number: 10423138Abstract: An energy storage system for a building includes a battery asset configured to store electricity and discharge the stored electricity for use in satisfying a building electric load. The system includes a planning tool configured to identify one or more selected functionalities of the energy storage system and generate a cost function defining a cost of operating the energy storage system over an optimization period. The cost function includes a term for each of the selected functionalities. The planning tool is configured to generate optimization constraints based on the selected functionalities, attributes of the battery asset, and the electric energy load to be satisfied. The planning tool is configured to optimize the cost function to determine optimal power setpoints for the battery asset at each of a plurality of time steps of the optimization period.Type: GrantFiled: March 30, 2017Date of Patent: September 24, 2019Assignee: Con Edison Battery Storage, LLCInventors: Mohammad N. Elbsat, Michael J. Wenzel, Kirk H. Drees
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Patent number: 10418833Abstract: A frequency response controller includes a high level controller configured to receive a regulation signal from an incentive provider, determine statistics of the regulation signal, and use the statistics of the regulation signal to generate a frequency response midpoint. The controller further includes a low level controller configured to use the frequency response midpoint to determine optimal battery power setpoints and use the optimal battery power setpoints to control an amount of electric power stored or discharged from a battery during a frequency response period.Type: GrantFiled: August 25, 2016Date of Patent: September 17, 2019Assignee: Con Edison Battery Storage, LLCInventors: Michael J. Wenzel, Kirk H. Drees, Mohammad N. ElBsat
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Patent number: 10418832Abstract: A frequency response optimization system includes a battery configured to store and discharge electric power, a power inverter configured to control an amount of the electric power stored or discharged from the battery, and a frequency response controller. The frequency response controller includes receiving a regulation signal from an incentive provider, determining statistics of the regulation signal, using the statistics of the regulation signal to generate a frequency response midpoint, and using the frequency response midpoint to determine optimal battery power setpoints for the power inverter. The power inverter is configured to use the optimal battery power setpoints to control the amount of the electric power stored or discharged from the battery.Type: GrantFiled: August 25, 2016Date of Patent: September 17, 2019Assignee: Con Edison Battery Storage, LLCInventors: Michael J. Wenzel, Kirk H. Drees, Mohammad N. ElBsat