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KIT.TC1.TS1 FlexOffice Thermal MPC - description

Short Description This test case is used to verify that self-consumption of renewable energy sources in a coupled heat and power network improved using distributed power-to-heat appliances...

KIT.TC1.TS1 FlexOffice Thermal MPC test system model implemntation - evaluation

Evaluation of System State and Test Signal Figure E.5 shows typical open-loop trajectories for the given disturbances and fixed input from D4.1. Figure E.6 shows typical closed-loop...

KIT.TC1.TS1 FlexOffice Thermal MPC test system model implemntation - overview

Test System Model Implementation Overview Author / organization: Alexander Engelmann / KIT Implemented Component Models / Implementation Tool: Electrical distribution grid ...

KIT.TC1.TS1 FlexOffice Thermal MPC test system model implemntation - short description

Short Description In this test aims at evaluating the capabilities of a MPC to optimize the system behaviour with respect to the previously defines KPIs and the OF. Specifically, this is...

KIT.TC2.TS1 (Electrical Peak Shaving BESS Sizing) Test System Model Implementation - overview

Test System Model Implementation Overview Author / organization: Zhichao Wu, Alexander Engelmann / KIT Implemented Component Models / Implementation Tool: HeatPump...

KIT.TC2.TS1 (Electrical Peak Shaving BESS Sizing) Test System Model Implementation - short description

Short Description The test aims at shaving electrical peaks in the FlexOffice/SmartFab system. This means that the electrical peak power delivered by the grid should be minimized. The grid...

Simulation Results of KIT.TC1.TS1 FlexOffice Thermal MPC - long description

Results Description of Simulation -- KIT.TC1.TS1 FlexOffice Thermal MPC   Figure 3 shows an open-loop optimal trajectory, which is the solution of OCP for one time instant with...

Simulation Results of KIT.TC2.TS1 (Electrical Peak Shaving BESS Sizing) - long description

Results Description of Simulation -- KIT.TC2.TS1 (Electrical Peak Shaving BESS Sizing) The objective function of scenario 1 is approximately monotonic increasing. The optimization converge to...

Simulation Results of KIT.TC2.TS1 (Electrical Peak Shaving BESS Sizing)- input

Simulation Input Test Data Link to test data: Here Storage of Data: SmILES data format Test System Model used for Simulation: KIT.TC2.TS1 (Electrical Peak...

Simulation Results of KIT.TC2.TS1 (Electrical Peak Shaving BESS Sizing)- setup

Simulation Setup & Configurations Author / organization: Zhichao Wu + T. Blank / KIT Objective Function of Simulation: Optimization of required battery for peak-shaving ...

Simulation Results of KIT.TC2.TS1 (Electrical Peak Shaving BESS Sizing)- short description

Short Description of simulation Results Scenario 1: Capacity of battery: 0 kWh Objective function: E min=4.41×104 EUR/year Scenario 2 Capacity of battery:...

Thermal building Component Model implementation - overview

Thermal Building Component Model Implementation - Overview Author / organization: Alexander Engelmann / KIT Used Compoent model specification : Thermal Building Specification ...

Thermal building Component Model implementation - short description

Short Description State-space model of the thermal behaviour of KIT Flexoffice Present use / development status Prototype

UC8 – Battery energy storage system for electrical peak shaving in production scenarios - details

Use Case Details Description of the use case UC8 ID UC8 System configuration(s) TBD Name of use case ...

Use Case UC 1 - details

Use Case Details Description of the use case UC12 ID UC12 System configuration(s) [List of system configurations which...

Use Case UC 11 - description

Short Description The occupants of the rooms have to agree on temperature limits of the building, such that they can be used as heat storages. One possible control scheme would be Model...

Use Case UC 11 - details

Use Case Details Description of the use case UC11 ID UC11 System configuration(s) SC Office Buildings 445 and 449 at KIT...

Use Case UC 11 - overview

Use Case Overview Author / organization: A. Engelmann Date: 05/07/2017 Version No.: 1.0 Belongs to use case group (if applicable): Building Energy Management

Use Case UC 12 - description

Short Description The local consumers have their own independent profiles of energy demand (electrical, heating and cooling). The centralized energy operator orients the energy flows from the...

Use Case UC 14 - description

Short Description Optimal design of local energy infrastructure (storage, district networks, power‐to‐heat) in urban planning.
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