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公开(公告)号:US20230123444A1
公开(公告)日:2023-04-20
申请号:US17994354
申请日:2022-11-27
申请人: Thomas HARTMAN
发明人: Thomas HARTMAN
摘要: In a commercial building, individual occupant thermal comfort is achieved with optimal cost and energy efficiency through the integration of a variety of local thermal comfort components into a communication network that employs emerging optimization principles to meet individual preferences for the thermal environment on a workstation basis while reducing building energy use and operating in accordance with any constraints on the energy grids that serve the buildings. These multiple objectives are met in part through a robust communication network that employs distributing processing to achieve preferred thermal conditions with optimal control of all components at subzone, zone, system, central plant, and energy grid levels.
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公开(公告)号:US20220003450A1
公开(公告)日:2022-01-06
申请号:US17364008
申请日:2021-06-30
申请人: Thomas HARTMAN
发明人: Thomas HARTMAN
IPC分类号: F24F11/77 , F24F11/523 , F24F11/56 , F24F11/64 , F24F13/06
摘要: In a commercial building, an improved terminal unit achieves individual occupant thermal comfort with optimal cost and energy efficiency through the integration of at least two local thermal comfort components into a single terminal unit along with a communication network that may incorporate additional thermal components and also employs emerging optimization principles to meet individual preferences for the thermal environment in a workspace basis while reducing overall zone or building energy use and operating in accordance with any constraints on the energy grid(s) that serve the buildings. These multiple objectives are met in part through the multi-comfort factor individual workspace control and a robust communication network that to coordinate thermal conditioning with neighboring workspaces.
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公开(公告)号:US20210254849A1
公开(公告)日:2021-08-19
申请号:US17175356
申请日:2021-02-12
申请人: Thomas HARTMAN
发明人: Thomas HARTMAN
摘要: In a commercial building, individual occupant thermal comfort is achieved with optimal cost and energy efficiency through the integration of a variety of local thermal comfort components into a communication network that employs emerging optimization principles to meet individual preferences for the thermal environment on a workstation basis while reducing building energy use and operating in accordance with any constraints on the energy grids that serve the buildings. These multiple objectives are met in part through a robust communication network that employs distributing processing to achieve preferred thermal conditions with optimal control of all components at subzone, zone, system, central plant, and energy grid levels.
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公开(公告)号:US11543146B2
公开(公告)日:2023-01-03
申请号:US17718742
申请日:2022-04-12
申请人: Thomas Hartman
发明人: Thomas Hartman
IPC分类号: F24F11/56 , H04L67/125 , F24F11/46 , F24F11/54 , F24F11/47 , F24F11/65 , H05B47/10 , F24F120/20
摘要: In a commercial building, individual occupant thermal comfort is achieved with optimal cost and energy efficiency through the integration of a variety of local thermal comfort components into a communication network that employs emerging optimization principles to meet individual preferences for the thermal environment on a workstation basis while reducing building energy use and operating in accordance with any constraints on the energy grids that serve the buildings. These multiple objectives are met in part through a robust communication network that employs distributing processing to achieve preferred thermal conditions with optimal control of all components at subzone, zone, system, central plant, and energy grid levels.
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公开(公告)号:US20220235959A1
公开(公告)日:2022-07-28
申请号:US17718742
申请日:2022-04-12
申请人: Thomas HARTMAN
发明人: Thomas HARTMAN
摘要: In a commercial building, individual occupant thermal comfort is achieved with optimal cost and energy efficiency through the integration of a variety of local thermal comfort components into a communication network that employs emerging optimization principles to meet individual preferences for the thermal environment on a workstation basis while reducing building energy use and operating in accordance with any constraints on the energy grids that serve the buildings. These multiple objectives are met in part through a robust communication network that employs distributing processing to achieve preferred thermal conditions with optimal control of all components at subzone, zone, system, central plant, and energy grid levels.
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公开(公告)号:US11365899B2
公开(公告)日:2022-06-21
申请号:US17364008
申请日:2021-06-30
申请人: Thomas Hartman
发明人: Thomas Hartman
IPC分类号: F24F11/77 , F24F11/523 , F24F11/56 , F24F13/06 , F24F11/64 , F24F120/12 , F24F110/10
摘要: In a commercial building, an improved terminal unit achieves individual occupant thermal comfort with optimal cost and energy efficiency through the integration of at least two local thermal comfort components into a single terminal unit along with a communication network that may incorporate additional thermal components and also employs emerging optimization principles to meet individual preferences for the thermal environment in a workspace basis while reducing overall zone or building energy use and operating in accordance with any constraints on the energy grid(s) that serve the buildings. These multiple objectives are met in part through the multi-comfort factor individual workspace control and a robust communication network that to coordinate thermal conditioning with neighboring workspaces.
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公开(公告)号:US11306940B2
公开(公告)日:2022-04-19
申请号:US17175356
申请日:2021-02-12
申请人: Thomas Hartman
发明人: Thomas Hartman
IPC分类号: F24F11/56 , H04L67/125 , F24F11/46 , F24F11/54
摘要: In a commercial building, individual occupant thermal comfort is achieved with optimal cost and energy efficiency through the integration of a variety of local thermal comfort components into a communication network that employs emerging optimization principles to meet individual preferences for the thermal environment on a workstation basis while reducing building energy use and operating in accordance with any constraints on the energy grids that serve the buildings. These multiple objectives are met in part through a robust communication network that employs distributing processing to achieve preferred thermal conditions with optimal control of all components at subzone, zone, system, central plant, and energy grid levels.
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