ScanTheSun
by Scientific Mobile
Solar panel calculator with shade analysis
App Name | ScanTheSun |
---|---|
Developer | Scientific Mobile |
Category | Tools |
Latest Version | |
Average Rating | 3.57 |
Rating Count | 143 |
Google Play | Download |
AppBrain | Download ScanTheSun Android app |
ScanTheSun is an application for solar PV-panels and collectors adjustment to get maximum operational efficiency.
The ENERGY GLOBE NATIONAL AWARD winner 2016.
Member of THE WORLD ALLIANCE FOR EFFICIENT SOLUTIONS 2020
ScanTheSun enables you:
1) Minimization of energy loss due to wrong orientation of the panels as well as due to inappropriate placement with respect to surrounding trees/buildings.
2) Reliable planning of the panels mounting. You will choose the best fragment of the roof and decide on usage of additional stands.
3) Acquiring an information on hours of electric energy production or water warming by your panels.
4) Create a detailed solar energy yield online report within a minute.
The Application takes into account buildings or trees around your panels and enables panels adjustment even in complicated urban surroundings. You can use ScanTheSun for adjusting of panels
1) on detached houses
2) on houses in urban areas
3) in PV-panels operated devices in cities or parks (like bicycle docking stations etc.)
4) in traffic solar devices
Features:
a) Elliptic shape of the Earths orbit is taken into account by calculation of the Sun position on the sky. Thanks to that, the Sun position is computed with 0,1 degree precision. This precision will hold for calculations up to the year 2055.
b) Atmospheric refraction of the light going through the thickness of atmosphere depending on the incidence angle is taken into consideration.
c) To get higher precision of the crossing points of the contoured horizon and the paths of the Sun, the barycentric coordinates in a triangle geometry have been applied.
d) Vector openGL graphics together with quaternions and matrix algebra has been used to get faster rendering.
e) Advanced stereometry and matrix algebra enable sensor calibration and camera view-angle measurement.
f) Differential calculus is used to calculate the energy stream picked up by the panel taking into account its orientation, sun trajectory, atmospheric refraction and shade cast by trees/buildings.
g) Multithread architecture of the application consists even of four processes working in parallel. Multithreading ensures smooth work of the application. Thanks to schedulers, the application works well even on old, singlecore devices.
h) ScanTheSun is multilanguage. Presently it supports English, German, Italian and Polish.
The ENERGY GLOBE NATIONAL AWARD winner 2016.
Member of THE WORLD ALLIANCE FOR EFFICIENT SOLUTIONS 2020
ScanTheSun enables you:
1) Minimization of energy loss due to wrong orientation of the panels as well as due to inappropriate placement with respect to surrounding trees/buildings.
2) Reliable planning of the panels mounting. You will choose the best fragment of the roof and decide on usage of additional stands.
3) Acquiring an information on hours of electric energy production or water warming by your panels.
4) Create a detailed solar energy yield online report within a minute.
The Application takes into account buildings or trees around your panels and enables panels adjustment even in complicated urban surroundings. You can use ScanTheSun for adjusting of panels
1) on detached houses
2) on houses in urban areas
3) in PV-panels operated devices in cities or parks (like bicycle docking stations etc.)
4) in traffic solar devices
Features:
a) Elliptic shape of the Earths orbit is taken into account by calculation of the Sun position on the sky. Thanks to that, the Sun position is computed with 0,1 degree precision. This precision will hold for calculations up to the year 2055.
b) Atmospheric refraction of the light going through the thickness of atmosphere depending on the incidence angle is taken into consideration.
c) To get higher precision of the crossing points of the contoured horizon and the paths of the Sun, the barycentric coordinates in a triangle geometry have been applied.
d) Vector openGL graphics together with quaternions and matrix algebra has been used to get faster rendering.
e) Advanced stereometry and matrix algebra enable sensor calibration and camera view-angle measurement.
f) Differential calculus is used to calculate the energy stream picked up by the panel taking into account its orientation, sun trajectory, atmospheric refraction and shade cast by trees/buildings.
g) Multithread architecture of the application consists even of four processes working in parallel. Multithreading ensures smooth work of the application. Thanks to schedulers, the application works well even on old, singlecore devices.
h) ScanTheSun is multilanguage. Presently it supports English, German, Italian and Polish.