Earthship – Tile texture manufacturer – Hanyi accessory system

History
The Earthship, as it exists today, began to take shape in the 1970s. Mike Reynolds, founder of Earthship Biotecture, a company that specializes in designing and building Earthships, wanted to create a home that would do three things; first, it would be sustainable, using material indigenous to the entire planet as well as recycled materials wherever possible. Second, the homes would rely on natural energy sources and be independent from the rid, therefore being less susceptible to natural disasters and free from the electrical and water lines that Reynolds considered unsightly and wasteful. Finally, it would be economically feasible for the average person with no specialized construction skills to be able to create.
Eventually, Reynolds’ vision took the form of the common U-shaped earth-filled tire homes seen today. As a concept, the Earthship was not limited to tires – any dense material with a potential for thermal mass, such as concrete, adobe, or stone could theoretically be used to create an Earthship. However, the earth-rammed tire version of the Earthship is now the most common design, and is usually the only structure referred to as arthship.
Earthships are made of Earth-rammed tires, bottles and cans
Unlike other materials, rammed-earth tires are more accessible to the average person. Scrap tires are ubiquitous around the world and easy to come by; there are an estimated 2 billion tires throughout the United States. As of 1996, as many as 253 million scrap tires were being generated each year in the United States, with 70% being reclaimed by the scrap tire market (leaving perhaps 75 million scrap tires available for reuse as whole tires). In addition to the availability of scrap tires, the method by which they are converted into usable “bricks”, the ramming of the earth, is simple and affordable.
The earth-rammed tires of an Earthship are usually assembled by teams of two people working together as part of a larger construction team. One member of the two person team shovels dirt, which usually comes from the building site, placing it into the tire one scoop at a time. The second member, who stands on the tire, uses a sledge hammer to pack the dirt in. The second person moves in a circle around the tire to keep the dirt even and avoid warping the tire. These rammed earth tires in an Earthship are made in place because, when properly made, they weigh as much as 300 pounds and can be very difficult to relocate.
Additional benefits of the rammed earth tire are its great load-bearing capacity and its resistance to fire.
A fully rammed tire, which is about 2 feet 8 inches wide, is massive enough to surpass conventional requirements for structural load distribution to the earth. Because the tire is full of soil, it does not burn when exposed to fire. In 1996 after a fire swept through many conventional homes in New Mexico, an Earthship discovered in the aftermath was relatively unharmed[citation needed]. Only the south-facing wall and the roof had burned away, compared to the total destruction of the conventional homes. After testing the walls of an Earthship in Ridgway, Colorado, engineer Tom Griepentrog said, t is my opinion that the construction method is equivalent to or better than the general quality, strength, effectiveness, fire resistance, durability and safety that is required by the uniform building code.citation needed]
Currently, Earthships are in use in almost every state in the United States, as well as many countries in Europe. The use of insulation on the outside of tire walls, which was not common in early designs, is improving the viability of Earthships in every climate without compromising their durability. In the year 2000, Mike Reynolds, in partnership with Daren Howarth, launched Earthship Biotecture Europe, an organization that aims to explore and evolve the concept of the Earthship within a European context. Two more directors were appointed to Earthship Biotecture Europe in July 2006 – Kevan Trott and Kirsten Jacobsen.
Europe
In 2004, the very first Earthship in the UK was opened at Kinghorn Loch in Fife, Scotland. It was built by volunteers of the SCI charity. In 2005, the first earthship in England was established in Stanmer Park, Brighton with the Low Carbon Trust.
Earthship biotecture has now finalized plans for a planning application to build on a valuable development site overlooking the Brighton Marina in the UK. The application follows the successful six-month feasibility study funded by the UK Environment Agency and the Energy Savings Trust. The application calls for sixteen one, two, and three-bedroom earthship homes on this site. The homes are all designed according to basic earthship principles developed in the United States. 15,000 tires will be recycled to construct these homes (the UK burns approximately 40 million tires each year). The plans include the enhancement of habitats on the site for lizards that already live there, which is the reasoning behind entitling the project “The Lizard”. This will be the first development of its kind in Europe, and successful development in Brighton may help to pave the way for similar projects around the UK and other places.
The first official Earthship home in Europe with official planning commission approval was built in a small French village called Ger. The home, which is owned by Kevan and Gillian Trott, was built in April 2007 by Kevan, Mike Reynolds and an Earthship Crew from Taos. The design was modified for a European climate and is seen as the first of many for the European arena. It is currently used as a holiday home for eco-tourists.
Africa
The first earthship in South Africa was built by Angel and Yvonne Kamp from 1996 to 1998. They rammed a total of 1,500 tires for the walls. The earthship, near Hermanus, is located in a 60 hectare private nature reserve which is part of a 500ha area enclosed in a game fence and borders the Walker Bay Nature Reserve.
Two new projects are also in early development in Africa, an information and training centre in Orania, South Africa and a residential house in Swaziland.
Systems
The Earthship was designed as a structure that would exist in harmony with its environment and be freed from the constraints of modern shelters which rely on centralized utilities. It is important that the Earthship create its own utilities as well as use readily available and sustainable materials. In order to be entirely self-sufficient the Earthship needs to be able to handle the three systems of Water, Electricity, and Climate. While these systems are not exclusive to Earthships, a properly designed Earthship must have these systems.
Water
a Botanical Cell for greywater treatment featuring interior banana trees
A domestic rainwater harvesting system
Schematic of an active solar heating system
Collection
Earthships are designed to catch and use water from the local environment without bringing in water from a centralized source. Water used in an Earthship is harvested from rain, snow and condensation. As water collects on the roof it is channeled through a silt-catching device and into a cistern. The cisterns are positioned so they gravity-feed a WOM (water organization module), that filters out bacteria and contaminants, and makes it suitable for drinking. The WOM consists of filters and a DC-pump that are screwed into a panel. Water is then pushed into a conventional pressure tank to create common household water pressure. Water collected in this fashion is used for any household activity except flushing toilets the conventional way. Rather, the water used for flushing toilets has been used at least once already: frequently it is filtered waste-water from sinks and showers, as described under “Greywater”.
Greywater
Greywater, water that has been used and is unsuitable for drinking, is used within the Earthship for a multitude of purposes once it is reclaimed. First, before the greywater can be reused, it is channeled through a grease and particle filter/digester and into a 30-60″ deep rubber-lined botanical cell, a miniature living machine, within the Earthship. This filter with imbedded plants can potentially also be used to produce food (by using a fruit tree, …). Oxygenation, filtration, transpiration, and bacteria-encounter all take place within the cell and help to cleanse the water (Reynolds 2000). Within the botanical cell, filtration is achieved by passing the water through a mixture of gravel and plant roots. Because of the nature of plants, oxygen is added to the water as it filters, while nitrogen is removed. Water taken up through the plants and transpired at their tops helps to humidify the air. In the cell, bacteria will naturally grow and help to cleanse the water.
Water from the low end of the botanical cell is then directed through a peat-moss filter and collected in a reservoir or well. This reclaimed water is then passed once more through a greywater board (see earthship.net) and used to flush conventional toilets.
Often, any greywater that is made at earthships is not polluted enough to justify treatment (its “pollution” being usually just soap, which is often not environmentally damaging). At earthships, the use of plants placed at outlets of fixtures is then practiced to regain the water and the nutrients lost (from the soaps, etc.).. Usually, a single plant is placed directly in front of the pipe, but mini drain-fields are also sometimes used. The pipe is made large enough (5,08 cm) so that the formation of underground gas (from the greywater) is avoided. This is done with kitchen and bathroom sinks, and even showers, washing machines, and dishwashing machines. The plants are usually placed indoors with the sinks and outdoors with the washing/dishwashing machines and shower (to avoid indoor “floods”). Also, with the latter, larger drain-fields are used instead of a mere plant being placed before an outlet.
Black water
Black water, water that has been used in a toilet, was usually not created within many of the earliest earthships as the use of conventional toilets was discouraged. Instead, in the early days composting toilets were advocated, which use no water at all. However, with the new greywater treatment system design (used in Nautilus, Helios, …) created by Michael Reynolds, flush toilets have now found a place in the earthship and the general water system has been redesigned according to the new “6-step process”.[not in citation given][not in citation given] Now, when the newly included flush-toilets are used, blackwater is not reused within the Earthship. Instead, blackwater is sent to a solar-enhanced septic tank with leach-field and planter cells (the whole being often referred to as the ncubator). The solar-enhanced septic tank is a regular septic tank which is heated by the sun and glazed with an equator-facing window. The incubator stores the sun’s heat in its concrete mass, and is insulated, to help the anaerobic process. Water from the incubator is channeled out to an exterior leach field and then to landscaping “planter cells” (spaces surrounded by concrete in which plants have been put). The cells are similar to the botanical cell used in greywater treatment and are usually placed just before and under the windows of the earthship.
In cases where it is not possible to use flush-toilets operating on water, dry solar toilets are now advocated, instead of regular composting toilets. If this is the case, obviously no black water is formed and the use of an incubator is thus (usually) not necessary. Instead, regular “planters” (plants used for sucking up water/nutrients) are then used. When using regular planters as well, no chemical soaps or detergents can be used.
The space where the WOM (water organization module), graywater pump panel, pressure tank, (first set of) batteries, and POM (power organising module) and stored is in a small room referred to as the “systems package”.
Electricity
Parts of DIY Wind turbine
A PV-solar system
Earthships are designed to collect and store their own energy from a variety of sources. The majority of electrical energy is harvested from the sun and wind. Photovoltaic panels and windturbines located on or near the Earthship generate DC energy that is then stored in several types of deep-cycle batteries. The space in which the batteries are kept is usually a special, purpose-built room placed on the roof. Additional energy, if required, can be obtained from gasoline-powered generators or by integrating with the city grid.
In an Earthship, a Power Organizing Module is used to take stored energy from batteries and invert it for AC use. The Power Organizing Module is a prefabricated system provided by Earthship Biotecture that is simply attached to a wall on the interior of the Earthship and wired in a conventional manner. It includes the necessary equipment such as circuit breakers and converters. The energy run through the Power Organizing Module can be used to run any house-hold appliance including washing machines, computers, kitchen appliances, print machines, vacuums, etc. Generally, none of the electrical energy in an Earthship is used for heating or cooling.[not in citation given]
Climate
The interior climate of an Earthship is stabilized and made comfortable by taking advantage of many phenomena. Mainly, the Earthship tries to take advantage of the properties of thermal mass and passive solar heating and cooling. Examples are large front windows with integrated shades, trombe walls and other technologies such as skylights or Track Rack solar trackers (dualling as an energy generation device and passive solar source.
The load-bearing walls of an Earthship, which are made from steel-belted tires rammed with earth, serve two purposes. First, they hold up the roof, and second, they provide a dense thermal mass that will soak up heat during the day and radiate heat during the night, keeping the interior climate relatively comfortable all day.
In addition to high thermal mass, some Earthships may be earth-sheltered. The benefits of earth-sheltering are twofold because it adds to the thermal mass and, if the Earthship is buried deep enough, allows the structure to take advantage of the Earth’s stable temperature.
The Earthship is designed in such a way that the sun provides heating, ventilation, and lighting. To take advantage of the sun, an Earthship is positioned so that its principal wall, which is nonstructural and made mostly of glass sheets, faces directly towards the equator. This positioning allows for optimum solar exposure.
To allow the sun to heat the mass of the Earthship, the solar-orientated wall is angled so that it is perpendicular to light from the winter sun. This allows for maximum exposure in the winter, when heat is wanted, and lesser exposure in the summer, when heat is to be avoided. Some Earthships, especially those built in colder climates, use insulated shading on the solar-orientated wall to reduce heat loss during the night (Reynolds 2000).
Natural ventilation
The ventilation system of an earthship
The earthships usually use their own natural ventilation system. It consists of cold(er) air coming in from a front (“hopper”) window, especially made for this purpose and flowing out through (one of) the skylights that are placed on the earthship. As hot air rises, the system maintains itself and keeps sucking in (and out), air.
Heating problems
Bottle walls are used in earthships such as this earthship bathroom, located in Phoenix, USA
Earthships rely on a balance between the solar heat gain and the ability of the tire walls and subsoil to transport and store heat. The design intends to require little if any auxiliary heat. Some earthships have suffered from over-heating and some from over-cooling.
Some earthships appear to have serious problems with heat loss. In these cases heat appears to be leaking into the ground constantly during the heating season and being lost. This situation may have arisen from the mistaken belief that ground-coupled structures (building in thermal contact with the ground) do not require insulation. The situation may also be due to large climatic differences between the sunny, arid, and warm Southwest (of the USA) where earthships were first built and the cloudier, cooler, and wetter climates where some are now being built. Malcolm Wells, an architect and authority on earth-sheltered design, recommends R-value 10 insulation between deep soils and heated spaces. Wells’s insulation recommendations increase as the depth of the soil decreases.
In very limited and specific situations, uncommon during the heating season, thermal mass can marginally increase the apparent R-value of a building assembly such as a wall. Generally speaking thermal mass and R-value are distinct thermodynamic properties and should not be equated. Thermal performance problems apparently seen in some earthship designs may have occurred because of thermal mass being erroneously equated to R-value. The R-value of soil is about 1 per foot.
Potential advantages
Having an earth-bermed home with windows facing the sun is a good idea in any climate where heating is required.
Collecting rainwater that falls on the roof reduces the runoff impact of the building and may reduce water and even sewer service fees.
Having a combination of photovoltaic cells and wind generation is a prudent way to provide electricity in many situations.
Using curved modules as horizontal arches to resist earth loads is a sound structural design.
On-site processing of runoff water, grey water, and black water using plant beds reduces the environmental impact of the building.
Rubber tires make a wind- and puncture- resistant wall. They may be safe from outgassing when plastered semi-airtight.
Rubber tires are usually free and it may be possible to be paid to take them. It also is beneficial to keep them out of landfills or prevent them from being illegally burnt.
Potential to eliminate utility bills.
The structure is highly moldable to your own aesthetic tastes.
Potential disadvantages
The sloped glazing may be hard to keep watertight and in warm climates allows excessive solar gain in summer. In colder climates, the glazing itself, which has far poorer insulating properties than any other component, will obviously be the major conduit of heat loss in winter. New designs call for vertical windows with an overhang.
Uninsulated ground-coupled thermal mass presents a large potential for heat loss, especially in climates with a heating season. This varies to a degree with soil type and moisture content.
Rubber-tire walls tend to lack structural stiffness and may require perpendicular stiffening ribs.
Most solar photovoltaic systems suffer from poor efficiency and some wind systems only generate in periods of high wind velocity.
The novel design may diminish resale value or make buyers more difficult to find.
The intimate ground contact inherent in this approach may increase hazards due to soil gases including Radon, and those due to water intrusion.
Packing or ramming dirt into the inside of tires is a very labor-intensive process.
Many Earthship builders are drawn to this system by its apparently low environmental impact. However, this is only valid if the design is highly thermally efficient. Earthship designs may require substantial thermal analysis and redesign to be adapted to non-Southwest USA climate.
Earthships built with concrete, sand bags, or adobe and with better solar and heat control perform better.
Earthships are usually built in areas of extremely low population density, so unless they are entirely self-sufficient, a significant amount of fossil fuels could have to be expended in their construction because of the transportation of materials and workers. They can be built anywhere, however, and this can mitigate certain issues dealing with fossil fuels and transportation.
Electrical systems utilize standard deep-cycle batteries.
Images of Earthships
an unfinished Earthship
an unfinished Earthship
an unfinished Earthship
an Earthship Bathroom
The exterior of a very modern Earthship
a Bottle wall of an Earthship Bathroom
See also
Antoni Gaudi
Autonomous building
Earth sheltering
Friedensreich Hundertwasser
Geothermal
Hurricane proof building
Mike Reynolds (architect)
Malcolm Wells
Permaculture
Spaceship Earth
Steve Baer
Sustainable architecture
Notes
^ Tom Verde, At Heart of Dispute, Tires by the Acre (December 2, 1996), The New York Times.
^ Earthship Homes development (archived from the original on 2007-12-13).
^ Kevin Telfer, Super green European breaks (26 April 2008 ), The Guardian.
^ http://www.fynbos.co.za/html/chaynouqua.htm
^ http://www.aardskip.com
^ http://www.earthships.co.za
^ Plants placed at fixtures
^ Plants placed at fixtures in earthships
^ Earthship Volume 2:Systems and components
^ New six step process for water purification[broken citation]
^ New water purification system process at Helios house: overview with pictures
^ Wastewater path[broken citation]
^ Water system process
^ http://earthship.com/systems/energy.php[dead link]
^ Kansas State University Extension Service
James H. Klippel, http://www.garrellassociates.com/EcoDesign.html, green page
References
Reynolds, Mike. (2000). Comfort In Any Climate, Taos: Solar Survival P. ISBN 0962676748
External links
Media related to Earthship at Wikimedia Commons
Earthships at the Open Directory Project
Earthships are not just for Desert Climates: http://www.bluerockstation.com
http://www.earthshipfloridaproject.com
Categories: Masonry | Renewable energy | Sustainable buildingHidden categories: All pages needing cleanup | Articles with unsourced statements from March 2009 | All articles with dead external links | Articles with dead external links from March 2009 | Articles lacking reliable references from October 2008 | All articles lacking reliable references | All articles with unsourced statements | Articles with unsourced statements from August 2007

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