In order to completely appreciate the nature of the danger, properly identifying and managing hazards at work can be a lengthy effort that extends into the domain of uncertainty, probability, and prediction models. As a result, corporations cannot be held liable for knowledge gaps in the training of individuals they hire to guarantee a safe and healthy working environment, particularly where hidden hazards exist.
Authorities tasked with establishing RF (radiofrequency) and microwave exposure standards are particularly concerned with electromagnetic wave propagation at frequencies in the SAR (specific absorption rate) area. Despite the lack of solid proof that non-ionizing electromagnetic radiation causes adverse health consequences other than thermal impacts, every effort should be made to ensure that workers and the general public are sufficiently safeguarded against unwanted radiation exposure. Standards, on the other hand, define exposure limits for free space, plane wave propagation, but they fall short of accumulating data on wave intensities following reflection and diffraction off wall surfaces.
This review looks at a theoretical model for possible energy build-up owing to RF propagation in restricted areas with bigger dimensions and a waveguide design. Silos, tanks, pipes, air-conditioning ducts, tunnels, and operator cabins on board boats are examples of confined spaces. Rf waves reflect off the walls in these confined spaces and mix constructively or destructively with incident waves, resulting in reinforcement or cancellation, respectively. When there is reinforcement, the wave's intensity for a given distance may exceed the exposure limit for that distance from the source, exposing the worker to higher intensities than the recognised limit and posing a health and safety risk. Waveguide theory and physics concepts have been offered as the building blocks for the model construction in this approach.Author(S) Details
Ricardo Rodriguez
Department of Mechanical and Manufacturing Engineering, The University of the West Indies, St. Augustine Campus, Trinidad and Tobago
Winston G. Lewis
Department of Mechanical and Manufacturing Engineering, The University of the West Indies, St. Augustine Campus, Trinidad and Tobago
View Book:- https://stm.bookpi.org/NAER-V16/article/view/4058
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