Today s phase change energy storage
One of the numerous TES technologies that is garnering a lot of attention is reversible latent heat storage based on phase change materials (PCMs), which offers the advantages of high energy storage density and small temperature swings. (1,2) Over the past few decades, researchers have developed three generations of PCMs with an enthalpy range from 50 J/g to 400 J/g, ranging from plastic crystals to molten salts. (3−6) Their properties have been promoted for applications in photo-thermal conversion, electro-thermal conversion, and thermal management. (2−4) Due to the inherent benefit of latent heat capacity, the thermal storage density of PCMs makes them one of the highest technologies among thermal storage systems. [pdf]
Liquid organic hydrogen energy storage technology
Liquid organic hydrogen carriers (LOHC) are that can absorb and release through . LOHCs can therefore be used as . In principle, every unsaturated compound (organic molecules with C-C or ) can take up hydrogen during . The sequence of followed by hyd. Another carbon-based type of hydrogen carrier, the liquid organic hydrogen carriers (LOHCs), circumvents the dependency on CO 2 by neither emitting nor relying on CO 2. Key to this technology is the LOHC carbon backbone that stays intact during storage and release of hydrogen. [pdf]
Magnesium metal hydrogen energy storage
Magnesium started to be investigated as a means to store hydrogen around 50 years ago, since it has the advantage of fulfilling the “natural” targets of (i) high abundance (2% of earth surface composition and virtually unlimited in sea water), (ii) non toxicity and (iii) relative safety of operation as compared to other light elements and their hydrides that quickly and exothermically oxidize in air. [pdf]
Contact Us
We are deeply committed to excellence in all our endeavors.
Since we maintain control over our products, our customers can be assured of nothing but the best quality at all times.