My project is currently still purely theoretical. I am very interested in the construction methods mentioned in the title, and my design is a hybrid of these. The entire house will be built using PET and/or glass bottles, a construction method that makes the house not only extremely cost-effective but also very strong. The south side will feature the main entrance and windows, along with a kind of greenhouse extension. The rest of the house will be covered with earth if the plot is large enough. If not, the exterior walls will also be enclosed with a similar greenhouse structure. If a rooftop terrace is permitted by the building permit/planning permission, the upper floor will be accessible from the outside over a hill and later covered with a greenhouse-style construction. If a pitched roof is mandatory, glass bottles will be integrated into the walls, along with many or large windows on the upper floor, and glass tiles on the roof. If neither a hill nor a rooftop terrace is allowed or possible, I will try to find a different plot. If this also fails, the small house will simply be placed inside a greenhouse.
The foundation and basement are also planned to be built with PET bottles. I believe that stones/gravel, reinforcement mesh, PET bottles, and waterproof cement should be sufficient. However, I definitely need expert advice here, as the foundation is ultimately the most important part of the house. The interior will be equipped using various Earthship techniques to save and recycle energy and water.
As much as possible will be built by myself, including casting the glass roof tiles. I have a lot of time but very little money. Greenhouse attachments and extensions will be added gradually only after the house is habitable. I am also considering protecting the greenhouse glass against hail, either with a protective film or by using thick, self-cast glass tiles.
Solar panels and a spiral wind turbine for electricity generation are also of interest but are rather marginal. Energy storage is still very poor. So far, the only practical storage method seems to be electrolyzing water to store hydrogen in a large underground pressure tank, then converting it back to electricity via a fuel cell. Hydrogen storage in gels is also interesting but still in its infancy. I find batteries completely unsuitable as a storage medium—without them, self-sufficiency in electricity would be pointless.
I will design everything using CAD software, but first, I want to gather all the important data and hear some opinions.
I am very grateful for any suggestions and tips.
Planning restrictions/limitations
Plot size: 80 - 100 sqm (861 - 1,076 sq ft) or larger (dependent on price)
Slope: irrelevant
Floor area ratio: no plot available yet
Site coverage ratio: no plot available yet
Building envelope, building line and boundary: no plot available yet
Edge development: unlikely
Parking spaces: bicycles will be stored inside on the wall; no car
Number of floors: basement, ground floor, upper floor accessible—no attic
Roof type: flat and accessible or pitched roof with glass tiles
Style: eco-friendly small self-build house
Orientation: windows facing south, all other sides covered with earth or greenhouse
Maximum height limits: 3-4 meters (10-13 feet)
Other requirements
Client requirements
Style, roof type, building type: eco-modern, rooftop terrace, hill house
Basement, floors: basement, ground floor, upper floor
Number of occupants, age: 1 person, age 33
Room needs on ground and upper floor: flexible
Office, family use or home office?: no
Overnight guests per year: no dedicated room
Open or closed architecture: mixed form?
Conservative or modern construction: modern
Open kitchen, kitchen island: open kitchen
Number of dining seats: 1
Fireplace: possible
Music/sound wall: no full wall
Balcony, rooftop terrace: rooftop terrace
Garage, carport: no
Kitchen garden, greenhouse: yes, the house will be a mix of house, kitchen garden, and greenhouse
Other wishes, special features, daily routine
House design
Who designed it: various architects + myself
Do-it-yourself: yes
What is particularly appealing? Cost, energy efficiency, plants
What is not appealing? That will become clear once it is finished
Cost estimate according to architect/planner: 10,000-20,000 (own research)
Personal budget limit for house including fixtures: excluding fixtures 25,000 (fixtures will be made by myself or are already available)
Preferred heating system: passive
If you had to give up certain details or extensions
- What can you do without: basement if the building footprint is sufficient, rooftop terrace if not allowed due to planning restrictions
- What you cannot do without: the custom, eclectic design; if I cannot design or decide it myself, I don’t want to build it
The foundation and basement are also planned to be built with PET bottles. I believe that stones/gravel, reinforcement mesh, PET bottles, and waterproof cement should be sufficient. However, I definitely need expert advice here, as the foundation is ultimately the most important part of the house. The interior will be equipped using various Earthship techniques to save and recycle energy and water.
As much as possible will be built by myself, including casting the glass roof tiles. I have a lot of time but very little money. Greenhouse attachments and extensions will be added gradually only after the house is habitable. I am also considering protecting the greenhouse glass against hail, either with a protective film or by using thick, self-cast glass tiles.
Solar panels and a spiral wind turbine for electricity generation are also of interest but are rather marginal. Energy storage is still very poor. So far, the only practical storage method seems to be electrolyzing water to store hydrogen in a large underground pressure tank, then converting it back to electricity via a fuel cell. Hydrogen storage in gels is also interesting but still in its infancy. I find batteries completely unsuitable as a storage medium—without them, self-sufficiency in electricity would be pointless.
I will design everything using CAD software, but first, I want to gather all the important data and hear some opinions.
I am very grateful for any suggestions and tips.
Planning restrictions/limitations
Plot size: 80 - 100 sqm (861 - 1,076 sq ft) or larger (dependent on price)
Slope: irrelevant
Floor area ratio: no plot available yet
Site coverage ratio: no plot available yet
Building envelope, building line and boundary: no plot available yet
Edge development: unlikely
Parking spaces: bicycles will be stored inside on the wall; no car
Number of floors: basement, ground floor, upper floor accessible—no attic
Roof type: flat and accessible or pitched roof with glass tiles
Style: eco-friendly small self-build house
Orientation: windows facing south, all other sides covered with earth or greenhouse
Maximum height limits: 3-4 meters (10-13 feet)
Other requirements
Client requirements
Style, roof type, building type: eco-modern, rooftop terrace, hill house
Basement, floors: basement, ground floor, upper floor
Number of occupants, age: 1 person, age 33
Room needs on ground and upper floor: flexible
Office, family use or home office?: no
Overnight guests per year: no dedicated room
Open or closed architecture: mixed form?
Conservative or modern construction: modern
Open kitchen, kitchen island: open kitchen
Number of dining seats: 1
Fireplace: possible
Music/sound wall: no full wall
Balcony, rooftop terrace: rooftop terrace
Garage, carport: no
Kitchen garden, greenhouse: yes, the house will be a mix of house, kitchen garden, and greenhouse
Other wishes, special features, daily routine
House design
Who designed it: various architects + myself
Do-it-yourself: yes
What is particularly appealing? Cost, energy efficiency, plants
What is not appealing? That will become clear once it is finished
Cost estimate according to architect/planner: 10,000-20,000 (own research)
Personal budget limit for house including fixtures: excluding fixtures 25,000 (fixtures will be made by myself or are already available)
Preferred heating system: passive
If you had to give up certain details or extensions
- What can you do without: basement if the building footprint is sufficient, rooftop terrace if not allowed due to planning restrictions
- What you cannot do without: the custom, eclectic design; if I cannot design or decide it myself, I don’t want to build it
T
toxicmolotof8 Aug 2015 11:47I’m telling you, it won’t be enough for the whole weekend.
B
Bauexperte8 Aug 2015 13:06Hello Yvonne,
You should take it sportingly, love affairs –
live and let live
Regards, Bauexperte
ypg schrieb:
Sorry, I’m glad the thread was closed. After all, that’s where the action is, not over there.
You should take it sportingly, love affairs –
live and let live
Regards, Bauexperte
Bauexperte schrieb:
Hello Yvonne,
In my opinion, you should take this lightly—love affairs—
live and let live
Best regards, BauexperteThat’s what I’m doing
Nowadays, it’s called entertainment and cringing for others.
A friend said that PET bottles only last 20-30 years. However, I have read everywhere that they take 450 years to decompose. The question is, how long does it take for a compressed PET bottle to no longer hold its contents due to cracks or other damage?
According to a website I am not allowed to link:
Polyester is used not only in the textile industry, but also for PE films and plastic beverage bottles (PET – PolyEthyleneTerephthalate). The fine fibers are suitable for insulation materials due to their good thermal properties (thermal conductivity lambda(R): 0.034 – 0.041 W/(m·K)).
The polyester fibers (insulation fleece) require no additives or flame retardants. They are thermally bonded during production. These are pure, elastic, soft fibrous materials with sound-absorbing properties. Polyester is skin-friendly and suitable for allergy sufferers, vapor-permeable, resistant to rot and decay, UV-resistant, and has a very low heat storage capacity.
For several years, polyester fleece insulation has been replacing traditional insulation materials like mineral wool and flexible polyurethane foam in the insulation of domestic hot water tanks.
Polyester materials are also used as compression felt boards in walls (cavity walls), between wooden beams in ceilings, prefabricated structures, and wall panels for technical applications (sound absorbers).
This means PET is not so bad as an insulation material after all.
According to a website I am not allowed to link:
Polyester is used not only in the textile industry, but also for PE films and plastic beverage bottles (PET – PolyEthyleneTerephthalate). The fine fibers are suitable for insulation materials due to their good thermal properties (thermal conductivity lambda(R): 0.034 – 0.041 W/(m·K)).
The polyester fibers (insulation fleece) require no additives or flame retardants. They are thermally bonded during production. These are pure, elastic, soft fibrous materials with sound-absorbing properties. Polyester is skin-friendly and suitable for allergy sufferers, vapor-permeable, resistant to rot and decay, UV-resistant, and has a very low heat storage capacity.
For several years, polyester fleece insulation has been replacing traditional insulation materials like mineral wool and flexible polyurethane foam in the insulation of domestic hot water tanks.
Polyester materials are also used as compression felt boards in walls (cavity walls), between wooden beams in ceilings, prefabricated structures, and wall panels for technical applications (sound absorbers).
This means PET is not so bad as an insulation material after all.
T
toxicmolotof9 Aug 2015 14:57Do NOT feed the troll.
Another Website I Am Not Allowed to Link:
Rethinking Recycling – PET Bottles as Building Material
June 2013 – Many new products can be made from recycled PET bottles. In one way or another, houses have even been built using these bottles.
Textiles Made from Old Bottles
The German company J.H. Ziegler GmbH recently introduced an insulation material made entirely from PET bottles. The product has been approved by the German building authority, and an Oeko-Tex certificate confirmed the “very good human compatibility” of the product.
I would say this is sufficient evidence that PET bottles can be used as insulation material.
Rethinking Recycling – PET Bottles as Building Material
June 2013 – Many new products can be made from recycled PET bottles. In one way or another, houses have even been built using these bottles.
Textiles Made from Old Bottles
The German company J.H. Ziegler GmbH recently introduced an insulation material made entirely from PET bottles. The product has been approved by the German building authority, and an Oeko-Tex certificate confirmed the “very good human compatibility” of the product.
I would say this is sufficient evidence that PET bottles can be used as insulation material.
Similar topics