Journal
JOURNAL OF CLEANER PRODUCTION
Volume 329, Issue -, Pages -Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.jclepro.2021.129713
Keywords
Aerogel; Water treatment; Freeze drying; Supercritical drying; Reactor design
Categories
Funding
- Tel Aviv University postdoctoral fellowship
- Scheme for Promotion of Academic and Research Collaboration (SPARC) India
- Israeli Science Foundation (ISF) [1685/18]
- PBC postdoctoral fellowship
- Science and Engineering Research Board (SERB) India
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Numerous aerogels are found in scientific literature, but few are commercially available, particularly in water remediation. Aerogels can support a variety of new materials, but production costs remain a challenge for market implementation.
Numerous aerogels are available in the scientific literature, however very few of them are in the market. Silicon, polymer, and carbon-based aerogels are commercially applied in various applications as construction, transportation, coating, day-lightning, oil, and gas. For water remediation purposes, very few materials are commercially available as aerogel blankets used for oil adsorption. We present the use of aerogels as a platform to support a wide range of novel materials, such as metals, semiconductors, oxides, polymers, biopolymers, hybrids and carbon. Aerogels are porous, consisting of 90-99% air, and are assembled into nanostructured materials. The discussed topics include synthesis (sol-gel process, aging, drying [ambient pressure, freeze, supercritical] ), aerogel-based materials for water treatment, water-purification applications for aerogels (oil and toxic organic pollutant cleanup, heavy metal ion removal), reactor design in a pilot-scale application, conclusions and outlook. Although the use of aerogels in point-of-use applications for water treatment is promising, there are gaps in the cost and implementation of these new materials. Improvement in manufacturing and reduction in production costs is required to enhance market availability. Hence, we emphasized reactor design for bulk synthesis purposes. This review critically discusses the scientific, technical, and common barriers to commercialization of these novel materials.
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