Storms and extreme rainfall events have always happened, but with the added heat in the atmosphere and oceans due to greenhouse gas emissions, storms now occur with increasing accumulated energy and
higher moisture loading.
Since this product is hydrophobic, its permeance will not increase when exposed to
high moisture loads.
Not exact matches
Wind turbines and their components are exposed to dynamic conditions that include
high loads, vibrations,
moisture, contamination, and extreme variances in temperatures.
The towering clouds were so
high that they punched through the troposphere (the lowest layer of the atmosphere where most weather occurs) and sent air
loaded with ice crystals rushing into the stratosphere, a
higher layer that normally contains very little
moisture.
High atmospheric
moisture loading will continue to pump up peak storm potentials when storms do form.
High inward flow of moisture during cooling periods can result in elevated energy costs due to high cooling loads, building fabric deterioration from decay and corrosion, and health and safety concerns from mold and mildew gro
High inward flow of
moisture during cooling periods can result in elevated energy costs due to
high cooling loads, building fabric deterioration from decay and corrosion, and health and safety concerns from mold and mildew gro
high cooling
loads, building fabric deterioration from decay and corrosion, and health and safety concerns from mold and mildew growth.
The impacts of this
high inward flow of
moisture are manifested as elevated energy costs due to
high cooling
loads, building fabric deterioration from decay and corrosion, and health and safety concerns from mold and mildew growth.