Insulating system for a battery system and method for controlling such an insulating system

What is claimed is: 1. A vehicle battery system, comprising: a housing configured to receive a plurality of battery cells, the housing having an insulating system including an inner wall and an outer wall forming an insulating cavity containing a microporous material, the insulating cavity fluidly coupled to first and second connections, the housing including a fluid inlet port and a fluid outlet port extending through the insulating cavity and configured to deliver a heat exchanging fluid to the plurality of battery cells; a vacuum pump coupled to the first connection of the insulating cavity; a valve coupled to the second connection of the insulating cavity; and a controller coupled to the vacuum pump and the valve, the controller configured to control operation of the valve and the vacuum pump to change thermal conductivity of the insulating cavity in response to temperature of the plurality of battery cells. 2. The vehicle battery system of claim 1 further comprising a pump coupled to the fluid inlet port and the fluid outlet port and configured to circulate the heat exchanging fluid. 3. The vehicle battery system of claim 1 wherein the controller is configured to operate the vacuum pump to reduce pressure within the insulating cavity in response to a difference between a current temperature of the plurality of battery cells and a desired temperature of the plurality of battery cells. 4. The vehicle battery system of claim 1 wherein the insulating system encompasses the plurality of battery cells. 5. The vehicle battery system of claim 1 wherein the housing comprises at least one pocket configured to receive the insulating system. 6. The vehicle battery system of claim 1 wherein the microporous material comprises microporous silica. 7. The vehicle battery system of claim 1 wherein the controller is further configured to receive ambient temperature information, and to control the vacuum pump and the valve in response to the ambient temperature information. 8. The vehicle battery system of claim 7 wherein the controller wirelessly receives the ambient temperature information. 9. The vehicle battery system of claim 8 wherein the controller is configured to detect a vehicle parking event in response to vehicle speed being below a threshold. 10. A vehicle comprising: a traction battery having a plurality of battery cells disposed within a housing; a battery insulation system disposed between the plurality of battery cells and the housing and including inner and outer walls defining a cavity containing microporous silica; a vacuum pump coupled to a first port of the cavity; a valve coupled to a second port of the cavity; a coolant pump coupled to inlet and outlet ports of the housing, the inlet and outlet ports extending through the cavity to route heat exchanging fluid around the plurality of battery cells; and a controller communicating with the vacuum pump and the valve, the controller programmed to control the vacuum pump and the valve to lower pressure within the cavity responsive to a temperature difference between ambient temperature and temperature of the traction battery exceeding a threshold to decrease thermal conductivity of the insulation system, and to control the valve to increase pressure within the cavity responsive to the temperature difference not exceeding the threshold. 11. The vehicle of claim 10 wherein the controller is configured to control the vacuum pump and the valve in response to detecting a vehicle parking event. 12. The vehicle of claim 11 wherein the controller detects a parking event based on vehicle steering and vehicle speed. 13. The vehicle of claim 11 wherein the controller wirelessly receives ambient temperature information.