compartment
0.38m3/ton
A plane intersects a line at a point, and i plane intersects another plane at a line.
Into plane
sagittal plane is a vertical plane that divides sth to left and right parts coronal plane is a vertical plane that divides sth into anterior and posterior parts
Point
Divide 1 by the stowage factor. if Stowage factor of Salt Petre is 1.02cu meters / ton, 1 / 1.02 = 0.98 So density of Salt Petre (packaged in bulk) is 0.98 metric tonnes per cubic meter.
am look in a dicshanary
0.38m3/ton
To convert density into stowage factor, first determine the density of the cargo in kilograms per cubic meter (kg/m³). The stowage factor is then calculated as the reciprocal of the density, expressed in cubic meters per metric ton (m³/ton). This can be done using the formula: Stowage Factor = 1 / (Density in kg/m³ / 1000). The result gives you the volume occupied by one metric ton of cargo, which is essential for stowing and loading operations.
The stowage factor of Gypsum in bulk is typically around 0.60 - 0.80 cubic meters/ton. For Barites in bulk, the stowage factor is usually around 1.30 - 1.50 cubic meters/ton. These values may vary slightly depending on factors such as the specific grade of the materials and how tightly it is packed.
stowage
It is known as stowage for people and freight for luggage items.
John McLeod Murphy has written: 'Nautical routine and stowage' -- subject(s): Navigation, Stowage 'American ships and ship-builders' -- subject(s): Employees, Shipbuilding, Shipbuilding industry
The stowage factor of sawn pine typically ranges from 2.0 to 3.0 cubic meters per metric ton, depending on factors such as moisture content and the dimensions of the timber. This measurement indicates the volume occupied by one metric ton of the material when stowed in a shipping container or vessel. Understanding the stowage factor is essential for optimizing cargo space and planning for transportation logistics.
The stowage factor of mustard seed typically ranges from about 35 to 45 cubic feet per metric ton (cbf/MT), depending on the specific variety and moisture content. This measurement indicates the volume occupied by the seeds during shipping and storage, influencing how much can be loaded into a shipping container or hold. Understanding the stowage factor is crucial for efficient cargo management and cost-effectiveness in transportation.
The stowage factor of sulfur is typically around 1.3 to 1.4 cubic meters per ton. This means that approximately 1.3 to 1.4 cubic meters of space is required to stow one ton of sulfur.
Cross stowage refers to the method of arranging cargo in a way that optimizes space and stability within a shipping container or transport vehicle. By placing items across different layers or sections, it helps distribute weight evenly, reduces movement during transit, and maximizes the use of available space. This technique is particularly important in logistics and shipping to ensure the safety and efficiency of transporting goods. Proper cross stowage can also facilitate easier access to items during unloading.