Water, Vol. 18, Pages 29: Basic Principles, Approaches, and Instruments for Studying, Characterizing, and Applying Natural and Artificial Fogs

Water doi: 10.3390/w18010029

Authors:
Petar Todorov
Ognyan Ivanov
Zahary Peshev
José Luis Pérez-Díaz
Tanja Dreischuh
Juan Sánchez García Casarrubios
Ashok Vaseashta

Approaches, methods, and corresponding ground-based and air/space-borne instrumentation currently utilized for detecting, studying, and monitoring fogs (including in situ and remote sensing techniques) are summarized. Special attention is paid to the existing and some emerging methods enabling reliable assessments and quantification of basic fog parameters, such as visibility, liquid water content, droplet number/volume concentration, effective radius, and size distribution. Along with purely natural fogs and those resulting directly or indirectly from industrial, combustive, or other human activities (smog, chemical fogs), entirely artificially created fogs are also subject to consideration in this study. Systems and apparatuses for the generation and control of artificial fogs are presented and discussed in terms of operational principles, design, and applicability. Methods and devices for fog water collection/harvesting are presented in view of their importance for solving the lack of water problem in dry and desert regions. Some other actual and potential applications of natural and artificial fogs are summarized and discussed related to air freshening or cleaning from chemicals and radioactive aerosols, fire extinguishing, nebulized therapies in medicine, spray coating of tablets or material surfaces, aeroponic agriculture, dust-proof coatings, etc.

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Petar Todorov www.mdpi.com