Design a Container House

 
Define
What's the problem here? Getting started on your container house design project.

The challenge is to design a livable home out of standard industrial shipping containers. These intermodal freight containers have a standard size of 40 by 8 feet each, and are commonly 8 feet 6 inches or 9 feet 6 inches tall. They are typically made of corrugated weathering (commonly known as the trademarked COR-TEN) steel, and have simple �twistlock� corners for easy stacking, locking, and craning. These containers are ideal for construction because they can be transported to a site in so many different ways (and can carry some of the other construction materials!). They can be shipped by rail, container ship, or semi-trailer truck. However, there are some drawbacks too. The containers are not insulated and do not provide protection against heat and cold on the inside. See the list of advantages and disadvantages:

Advantages

    Strength and durability: Shipping containers are in many ways an ideal building material. They are designed to carry heavy loads and to be stacked in high columns. They are also designed to resist harsh environments, such as on ocean-going vessels or sprayed with road salt while transported on roads. Due to their high strength, containers are useful for secure storage.
    Modular: All shipping containers are made to standard measurements, and as such they provide modular elements that can be combined into larger structures. This simplifies design, planning and transport. As they are already designed to interlock for ease of mobility during transportation, structural construction is completed by simply emplacing them. Due to the containers' modular design, additional construction is as easy as stacking more containers. They can be stacked up to 12 high when empty.

    Labor: The welding and cutting of steel is considered to be specialized labor and can increase construction expenses, yet overall it is still lower than conventional construction. Unlike wood frame construction, attachments must be welded or drilled to the outer skin, which is more time consuming and requires different job site equipment.
    Transport: Pre-fabricated modules can also be easily transported by ship, truck or rail, because they already conform to standard shipping sizes.
    Availability: Used shipping containers are available across the globe.
    Expense: Many used containers are available at an amount that is low compared to a finished structure built by other labor-intensive means- such as bricks and mortar- which also require larger more expensive foundations. Construction involves very little labor and used shipping containers requiring only simple modification can be purchased from major transport companies for as little as US $1,200 each. Even when purchased brand new they are seldom more than US $6000.

Disadvantages

    Temperature: Steel conducts heat very well; containers used for human occupancy in an environment with extreme temperature variations will normally have to be better insulated than most brick, block or wood structures.
    Humidity: As noted above, single wall steel conducts heat. In temperate climates, moist interior air condenses against the steel, becoming clammy. Rust will form unless the steel is well sealed and insulated.
    Construction site: The size and weight of the containers will, in most cases, require them to be placed by a crane or forklift. Traditional brick, block and lumber construction materials can often be moved by hand, even to upper stories.
    Building permits: The use of steel for construction, while prevalent in industrial construction, is not widely used for residential structures. Obtaining building permits may be troublesome in some regions due to municipalities not having seen this application before.
    Treatment of timber floors: To meet Australian government quarantine requirements most container floors when manufactured are treated with insecticides containing copper (23-25%), chromium (38-45%) and arsenic (30-37%). Before human habitation, floors should be removed and safely disposed. Units with steel floors would be preferable, if available.
    Cargo spillages: A container can carry a wide variety of cargo during its working life. Spillages or contamination may have occurred on the inside surfaces and will have to be cleaned before habitation. Ideally all internal surfaces should be abrasive blasted to bare metal, and re-painted with a nontoxic paint system.
    Solvents: Solvents released from paint and sealants used in manufacture might be harmful.
    Damage While in service, containers are damaged by friction, handling collisions, and force of heavy loads overhead during ship transits. The companies will inspect containers and condemn them if cracked welds, twisted frames or pin holes are found, among other faults.


Define the problem:

    Purpose: Create an alternative home design by repurposing shipping containers.
    Location: Your choice. Select a site within your home�s or school�s neighborhood, which you can photograph and measure.
    Target audience: Individuals or families interested in alternative housing solutions.
    Size limitations: Up to four containers, 40 feet x 8 feet each
    Materials to be used: Containers and recycled materials.
    Budget constraints: $30,000.00 including the cost of the shipping containers, which cost about $6,000 each (see WikiHow for how to buy a shipping container)

You will find worksheets and supplementary documents for the project below. Start your project by answering questions in the Container House Pre-test.
Attachment

    Pre Test
    Collect Info Steps
    Design Criteria Worksheet

Collect Info
How do you Collect Info for this step of the design process?

In the Collect Info step of the design process, you try to gather as much information as possible about shipping containers and your site, along with the people who will use it. You can't propose solutions until you figure out and document the design problem.
Try This

    Start off the project by analyzing what you already know about container architecture and container housing with a quick pre-test.
    Use this worksheet to help you fill out this section.
    Measure out a full-scale plan of a container using a measuring tape. This will help you visualize the full size of a shipping container.
    Make a list of the features you want this home to have. What is important? Remember, you only have up to 4 containers. Is living space most important, or the number and size of bedrooms?
    Consider the size of your site. There may only be a certain way the shipping containers can fit on the site, so try a few different combinations of the containers, including putting them in multiple levels.
    Research shipping container architecture to see how others have repurposed shipping containers into buildings.

Think About

    How many people will be living in this home? What are their ages and genders? What do they do? How much space does each person need? What kinds of living spaces will this family need? How many bedrooms and bathrooms?
    Where is the site for this container house? What makes this site unique? Is it narrow? Square? This will dictate how you can configure multiple containers.
    What basic necessities will you need to add to make this space livable? For example, you will need to add plumbing, electricity, and insulation. What else is needed?
    How will the outdoor space be used?
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