Abstract
Sorbent wheels are used in air conditioning systems to aid in dehumidification. The sorbents conventionally employed in these devices have linear, Type I or II water sorption isotherms requiring high regeneration temperatures. Metal Organic Frameworks (MOFs), a new class of sorbent materials, can be regenerated at much lower temperatures thanks to their Type IV or V isotherms and steep adsorption step. In this work we investigate the benefits of using MOFs as sorbents in dehumidification wheels in air conditioning systems. We first develop a first-principles model of a typical system in the Modelica language and validate it with experimental data . We then investigate the effect of replacing the most commonly used solid sorbent, silica gel, with each of several systematically selected MOFs. Our results show that the best performing MOFs of the candidates tested (Co2Cl2(BTDD) (Co), Al-fumarate (Al) or CAU-23 (Al)) can regenerated at temperatures as low as 40-60 degrees C depending on ambient conditions, in contrast to 80-140 degrees C for silica gel. Also, energy requirements of a MOF-based sorbent wheel can be from 1/2 to 1/8 of the energy required for silica gel-based systems depending on ambient conditions.
NSTL
Elsevier