(Page créée avec « *Estufa Patsari Construction Manual in Spanish: http://www.stoves.bioenergylists.org/files/ManualPatsari.pdf *Helpful video tutorials for construction: https://www.youtube... »)
|Notes=*Manuel de construction de la Estufa Patsari en espagnol : http://www.stoves.bioenergylists.org/files/ManualPatsari.pdf
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|Notes=*Estufa Patsari Construction Manual in Spanish: http://www.stoves.bioenergylists.org/files/ManualPatsari.pdf
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*Tutoriels vidéos pouvant aider à la construction : https://www.youtube.com/watch?v=ecqqWO5hqKs et https://www.youtube.com/watch?v=MohCoH5ODkI
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*Helpful video tutorials for construction: https://www.youtube.com/watch?v=ecqqWO5hqKs and https://www.youtube.com/watch?v=MohCoH5ODkI
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*Plans de construction de la Estufa Patsari : http://bioenergylists.org/files/NuevaEstufaPatsari_GIRA.pdf
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*Construction plans for the Estufa Patsari: http://bioenergylists.org/files/NuevaEstufaPatsari_GIRA.pdf
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*Etude de performance de la Estufa Patsari (espagnol) : http://ecotec.cieco.unam.mx/Ecotec/wp-content/uploads/From-cookstoves-to-cooking-systems.-The-integrated-program-on-sustainable-household-energy-use-in-Mexico.pdf
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*Estufa Patsari performance study (Spanish): http://ecotec.cieco.unam.mx/Ecotec/wp-content/uploads/From-cookstoves-to-cooking-systems.-The-integrated-program-on-sustainable-household-energy-use-in-Mexico.pdf
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*Tutoriel de construction de la Estufa Lorena (ancien modèle) en espagnol : https://www.crim.unam.mx/patrimoniobiocultural/sites/default/files/PL6.pdf
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*Construction tutorial for the Estufa Lorena (old model) in Spanish: https://www.crim.unam.mx/patrimoniobiocultural/sites/default/files/PL6.pdf
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*Etude sur l'amélioration de la Estufa Lorena vers la Estufa Patsari: http://www.bioenergylists.org/estufasdoc/Rodolfo_Diaz/DeLorena-a-Patsari.pdf
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*Study on the improvement of the Estufa Lorena to the Estufa Patsari: http://www.bioenergylists.org/estufasdoc/Rodolfo_Diaz/DeLorena-a-Patsari.pdf
A firewood-saving stove model developed in the 2000s in Mexico by GIRA (Interdisciplinary Group of Rural-Appropriate Technology). Simple to construct, cost-effective and hygienic, the Patsari stove has spread widely among rural communities in Mexico.
A firewood-saving stove model developed in the 2000s in Mexico by GIRA (Interdisciplinary Group of Rural-Appropriate Technology). Simple to construct, cost-effective and hygienic, the Patsari stove has spread widely among rural communities in Mexico.
The Patsari stove adapted and improved upon the Lorena model which was developed in Guatemala and Mexico in the 1980s. It was designed and distributed by the Grupo Interdisciplinario de Tecnología Rural Apropriada (GIRA) located in Patzcuaro, Michoacan, Mexico. During 20 years of fieldwork in collaboration with users of the Lorena design, several improvements have been incorporated into the Patsari model:
The exterior is made of brick in order to increase its lifespan
The construction process uses molds for standardization purposes, to ensure the correct dimensions of the combustion chamber
An optimized combustion chamber
Secondary burners that maximize heat transfer to multiple cooking surfaces
Chicanes redirect the hot gases to the secondary burners.
The hotplates (comals) are sealed to prevent smoke from entering the room.
A prefabricated chimney base for easier cleaning
In the Purhe'pecha indigenous peoples' language, Patsari means "the one who takes care of;" the stove is designed to take care of the health of the users as well as the overall environment. The main advantages of this cooker are:
50% reduction in fuel consumption compared to an open fire.
66% reduction in the concentration of particles and toxic gases (CO) in indoor air compared to an open fire.
Reduced eye irritation and respiratory illness from cooking fumes.
Saves time and money; because less wood is consumed, less time is spent collecting wood and less money is spent purchasing it.
Built with local materials, soil and sand.
Easily adaptable, simple-to-use on a daily basis.
This stove model has been specially designed to adapt to the culinary habits of Mexico, but can be used or adapted to other contexts. This tutorial is an adaptation and translation of the work carried out by GIRA. A tutorial is available in Spanish: http://www.stoves.bioenergylists.org/files/ManualPatsari.pdf
Before constructing the Patsari stove, you need a solid, stable base, not only for greater comfort for the user, but also for the sake of safety around children and pets. In general, the base measures 1m wide by 1.20m long and 60cm high; these measurements ensure sufficient space for placing kitchen utensils, for example.
Construction Materials
The base can be constucted with available household materials or other materials that are easily affordable. Some examples of potential materials are:
adobe
concrete
brick
metal
These bases can be filled in completely or hollow. The hollow base has more advantages, because it can be used to store and dry wood, or for storing dishes.
Étape 3 - Formwork Construction
On the base, a form is made in which to pour the mixture. This mold will be made of four wooden planks (covered with form release oil) or metal sheets with four metal bars for adjustment.
Recommended dimensions: 80cm x 100cm x 27.5cm
If the stove is to be built in a corner of the house or near a wall, leave a gap (about 5cm) for the pieces of the formwork to be removed.
Mix 3 buckets of commercial grade sand (20L) + 1 bucket of cement (Multibat type)
Mix well with a shovel
Slowly add 5 to 10 liters of water while mixing continuously
This mixture will be used to bond the bricks.
2. Making the clay mortar
Mix 2 buckets of commercial grade sand + 1.5 buckets of soil (sifted finely)
Stir well until mixture is a uniform color.
Add 3-4 scoops of mortar.
Add 5-10 liters of water, pouring little by little into the mixture. It is recommended to stir the mixture, so that it is evenly moist, until it reaches a sticky consistency. To see if the mixture has the right amount of moisture, take a handful and see if it runs off your hand; if not, it is ready to use.
This mixture will be used for filling the interior of the cooker.
The finer the materials are sifted, the less likely the mixture will crumble and the longer the cooker will last.
Étape 5 - Building the Edges of the Stove
If the base of the cooker is made of concrete or metal, it's advisable to place a layer of ash to insulate and prevent the base from heating up too much.
Dip the bricks in a bucket of water and assemble them with mortar according to the plans above. The recommended thickness of mortar is usually 2cm.
Split some bricks as needed to adapt them to the correct dimensions.
Étape 6 - Constructing the Combustion Chamber
Dip the bricks in a bucket of water and assemble them with mortar according to the plans above. The recommended thickness of mortar is usually 2cm.
On the last row, break 1 brick in half lengthwise to create a border that will wedge the "comal" (hotplate) in place.
Étape 7 - Filling the Base
Fill the space around the combustion chamber with gravel to a level height.
At the end of the stove, position the "chacuaco" (smoke venting piece)
Cover the gravel with a thin layer of sand to fill in the gaps. Smooth it over.
Étape 8 - Positioning the First Hotplate and Smoke Venting Tunnels
Position the large hotplate. Make sure it is in the center of the stove.
Position two hollow bricks, two sections of aluminum, or two tin cans (note that tin cans risk oxidizing quite quickly), against the hotplate at the exit of the combustion chamber so as to form two smoke venting tunnels. Make sure to leave a height of 2cm between the top of the tunnel and the edges of the cooker.
Étape 9 - Positioning the Secondary Hotplates
Pour two buckets of soil mortar at the location of the secondary hotplates.
Insert the molds at the hotplate sites. You could use two plastic bowls of the same diameter as the hotplates + two pieces of wood instead of molds.
Make sure the hotplates are level with the edges of the stove.
Étape 10 - Filling the Cooker
Fill the empty space with soil mortar up to the height of the oven edges. Leave empty spaces at the combustion chamber and inside the molded space for the secondary burners. Also take care not to obstruct the chimney flue.
Mark the exact measurements of the 3 hotplates and cut the outline using a masonry trowel.
Be careful not to obstruct the combustion chamber.
Étape 11 - Smoke Venting Passage
Use a trowel to dig a passage in the mortar for free access to the smoke venting tunnels and create a circuit between the combustion chamber and the two secondary hotplates.
Make sure to leave a 2cm tall passage between the hotplate and the dent created in the secondary chambers.
Dig a passage between the secondary chambers and the base of the chimney flue.
Étape 12 - Installing the Hotplates
Position the 3 hotplates in their locations.
To ensure that the hotplates are placed flat and level with the edges, you can hammer a piece of wood placed flat between the borders. Repeat the action at different positions.
Étape 13 - Finishing Touches and Installing the Chimney
Create a nice, smooth surface by moistening it a little and smoothing with the trowel.
Carefully remove the formwork around the cooker.
If necessary, scrape down and smooth the edges of the cooker for a better finish.
Insert the tubes in the smoke venting ducts to form the chimney flue.
The stove takes about a week to dry completely.
Étape 14 - Recommendations for Use
Distribute the wood evenly at the entrance of the combustion chamber for a more even temperature under the main hotplate.