Over the last decade, CO 2 adsorption technology has quickly gained popularity and is now
widely applied in global CCUS projects due to playing an important role in achieving net …

A ubiquitous and abundant chemical element that is essential to many different industries is
hydrogen (H 2). Due to its numerous applications in petrochemical industries and promise …

This work is concerned with the calculations using eight different isotherm models
(Langmuir, Freundlich, Halsey, Temkin, Toth, Sips, Radke-Prausnitz, and Redlich-Peterson) …

The question has shifted from whether solid sorbents can work in direct air capture (DAC)
technologies to which solid sorbents are more economically advantaged. Determining this is …

Direct air capture (DAC) is an auspicious technology in pursuing negative CO2 emissions. A
promising process is temperature vacuum swing adsorption (TVSA) employing amine …

Direct air capture (DAC), which removes CO 2 directly from ambient air, is a critical negative
emission technology for mitigating global climate change. Efficiency and the source of …

The tremendous increase in human population and industrialization has exacerbated the
existing problem of water pollution to a great extent. The textile industry is the major cause of …

Addressing burdens of electronic waste (E-waste) leachate while achieving sustainable and
selective recovery of noble metals, such as gold, is highly demanded due to its limited …

Surface functional groups (SFGs) play a key role in adsorption of any target molecule and
CO 2 is no exception. In fact, due to its quadrupole nature, different SFGs may attract either …

This paper focuses on identifying the cost limits of two single-stage pressure–vacuum swing
adsorption (PVSA) cycles for post-combustion CO 2 capture if the “ideal” zero-cost …