10   Climatic conditions
10.1 Inclusion of hygroscopic goods in
   container transport
10.2 Fundamental issues relating to container climate
10.2.1 Temperature & water vapor content of the air
10.2.2 Hygroscopicity
10.2.3 Water content of the goods
10.2.4 Sorption behavior
10.2.5 Sorption isotherms
10.2.6 Explanation of the sorption behavior of a product
10.2.7 Types of sorption isotherm
10.2.8 Water vapor in container air
10.2.9 Definition of moisture sensitivity
10.3 Cryptoclimate in the container
10.3.1 Interfaces in the container
10.3.2 Storage temperatures in the container
10.3.2.1 Influence of solar radiation
10.3.2.2 Depth of penetration of temperatures
10.3.3 Water vapor in the container
10.3.4 Sources of sweat
10.3.4.1 Container air as source of sweat
10.3.4.2 Ventilation air as source of sweat
10.3.4.3 Water content of the goods as source of sweat
10.3.4.4 Water content of packaging, accompanying
   material and dunnage
10.3.4.5 Rain water (leaks) as source of sweat
10.3.5 Influence of radiation on container cryptoclimate
10.3.5.1 Formation of container sweat in radiation weather
10.3.5.2 Sweat classes
10.3.6 Influence of climatic change due
to international transport
10.3.6.1 Formation of container sweat in the event
   of a drop in air temperature
10.3.6.2 Humidity motor (cycle) in the container
10.3.6.3 Loss prevention measures
10.3.6.4 Formation of cargo sweat in the event of a rise in
   air temperature
10.3.6.5 Loss prevention measures
10.3.6.6 Formation of cargo and container sweat
10.3.7 Measures for avoiding moisture damage
10.4 Interrelationships between cargo type, container type and
   stowage space
10.4.1 Selection of suitable container type
10.4.2 Stowage space requirements on a
container ship
 

Impressum | Data protection | © GDV   |  German Version
Contact  |  Site Map  |  Glossary  |  Bibliography  |  Legal Notice  |  Paper version