Abstract: A thermal management system for an electric vehicle including an energy storage system and a vehicle component that requires cooling. A method for thermal management of an electric vehicle, and an electric vehicle including the thermal management system. The system including a heater arranged to heat the energy storage system, wherein the heater is arranged to be powered by either the energy storage system or an external power source, a control unit for controlling the heater and configured to identify when the heater is powered by the external power source, and to, when the heater is powered by the external power source receive data associated with the ambient temperature, determine whether the ambient temperature is below or above a minimum temperature, control the heater to heat the energy storage system when the ambient temperature is below the minimum temperature.
Abstract: A thermal management system for controlling the temperature in a cabin and an energy storage system of an electric vehicle including a vehicle component is provided. The system provides for a heat exchanger arranged to heat the energy storage system, a heater for heating the cabin and the heat exchanger, a first valve arranged to receive a fluid that has been used for cooling the vehicle component, and to provide fluid to the heater, a temperature sensor arranged to measure the temperature of the fluid entering the first valve, a second valve receiving the fluid from the heater and having a first outlet in fluid communication with the cabin, and a second outlet in fluid communication with the heat exchanger, and a control unit.
Abstract: A thermal management unit for controlling the temperature in an electric vehicle, a thermal management system including the unit and an electric vehicle including the thermal management system. The unit includes a heater, a cooling unit, a heat exchanger, six input ports and six output ports for connecting external pipes, three three-way valves, a two-way valve and piping for thermal fluid. The components of the thermal management unit are connected via piping such that excess heat from a vehicle component can be directed to heat the cabin and/or energy storage system of the electric vehicle. Also, one heater and one cooling unit are used to heat or cool both the cabin and the energy storage system.