Energy storage technology for future space science missions report no.
Solar power and energy storage for planetary missions.
The roadmaps are a set of documents that consider a wide range of needed technologies and development pathways for the next 20 years 2015 2035.
Discovery of water in the soil at the lunar poles by chandrayaan 1 in 2008 09 renewed interest in the moon after nasa missions in the 1990s suggested the presence of lunar ice locating a colony at one of the lunar poles would also.
Colonization of the moon is the proposed establishment of a permanent human community or robotic industries on the moon the closest astronomical body to earth.
Jpl d 101316 december 2017.
The study report is organized into five major sections.
The assessment team held four meetings with the energy storage technologists from academia national laboratories and industry to.
Improved primary batteries rechargeable batteries and fuel cells with high specific energy and long life capability are needed for.
1 study overview 2 potential solar power system needs of future planetary science missions 3 capabilities and limitations of state of practice sop space solar power systems 4 status of advanced solar cell and array technologies and 5 findings and recommendations.
Higher efficiency and higher specific power solar arrays and radioisotope power systems are desired to provide increased power and mission design flexibility for deep space missions.
Planetary and space exploration missions space exploration missions may be broadly classified into two categories.
The energy storage needs of the planetary missions are diverse as described below.
Control 8 payload 27 power 28.
Space power and energy storage one of the 16 sections of the 2015 nasa technology roadmaps.
Planetary missions high temperature batteries for venus missions non flammable separator electrolyte systems solid state high specific energy high power batteries li air batteries for aircraft applications improved cathode and electrolyte stability in lithium oxygen batteries multi functional load bearing energy storage.
Energy storage power management and distribution space missions need a variety of power solutions solar power systems nuclear power systems batteries primary and secondary rechargeable fuel cells new technologies thermal 3 propulsion communication 4 8 guidance nav.
They provided 6 6 m2 of solar energy to power the stardust spacecraft even when it was nearly three times farther from.
A obtain information about potential next decadal planetary science missions and their energy storage system needs b determine the capabilities of state of practice sop space energy storage systems c assess.