Izbrane teme sodobne fizike in matematike
Vse večji vpliv podnebnih sprememb na okolje podaja zahtevo po energetsko učinkovitejših hladilnih sistemih. V zadnjih letih je vedno pogostejši predmet raziskav ohlajanje s sevanjem; predvsem zato, ker dopušča oddajanje toplote z zemeljskega površja v hladni Kozmos brez potrebe po dovajanju energije. V prvem delu članka so predstavljeni zakoni, ki določajo termodinamiko seval v naravi. Z njihovo pomočjo so opredeljeni in matematično opisani vplivi tipične okolice na telo na zemeljskem površju. V nadaljevanju je predstavljen teoretičen model sevalnega hladilnega sistema, na osnovah katerega deluje večina obstoječih projektov, v zadnjem delu članka pa so postavljeni pod drobnogled še dosežki in inovacije raziskav na področju ohlajanja s sevanjem.
The ever increasing effect of climate change upon the environment calls for the use of more efficient cooling systems. Lately, research into radiative cooling as one of the possible solutions has been evermore frequent; cooling via radiation provides us a way to emit heat into the cold Cosmos without any energy input. In the first part of the paper the fundamental laws of physics pertaining to the thermodynamics of emitters in nature are presented. Thus, the effects a typical environment on Earth’s surface has on an observed body are identified and mathematically described. Going forward, a theoretical model of a radiation-based cooling system, upon the principles of which most existing projects rely, is explored, ending with a deeper dive into the results and innovations of research made in the field of radiative cooling.