Passipedia EN

User Tools

Site Tools

You are here: Passipedia - The Passive House Resource » Efficiency NOW » Structural measures for energy efficiency » Straw as insulation material
efficiency_now:building_envelope:straw_as_insulation_material

Differences

This shows you the differences between two versions of the page.

Link to this comparison view

Both sides previous revisionPrevious revision
Next revision		Previous revision
efficiency_now:building_envelope:straw_as_insulation_material [2023/08/07 15:10] yaling.hsiao@passiv.deefficiency_now:building_envelope:straw_as_insulation_material [2023/08/07 16:11] (current) yaling.hsiao@passiv.de
Line 6: Line 6:
  
 [{{ :picopen:stroh_als_waermedaemmung.png?300 |**Figure 1.** left: thermal flux perpendicular to the direction of the stalks, λ = 0.052 W/(mK) © PHI. **Center:** Thermal flux in the direction of the stalks: 0.08 W/(mK) © PHI. **Right:** 2-string baler. © Welger. }}] [{{ :picopen:stroh_als_waermedaemmung.png?300 |**Figure 1.** left: thermal flux perpendicular to the direction of the stalks, λ = 0.052 W/(mK) © PHI. **Center:** Thermal flux in the direction of the stalks: 0.08 W/(mK) © PHI. **Right:** 2-string baler. © Welger. }}]
 +\\
 Due to a different production process, the stalks are more homogeneously oriented in big bales, The density is also higher. Here a λR of 0.065 W/(mK) can be assumed. Simply measured values or non-rated values (λ, λD) should not be used in calculations as these values do not incorporate safety factors to take into account potentially higher moisture content or different temperatures. The European Technical Approval ETA-17/0247 for “Baustroh” of BauStroh GmbH, gives a rated thermal conductivity λR-of 0.049 W/(mK) for small bales of 100 +/- 15 kg/m³ density, with thermal flux perpendicular to the direction of the straw stalks (figure 1, left). Due to a different production process, the stalks are more homogeneously oriented in big bales, The density is also higher. Here a λR of 0.065 W/(mK) can be assumed. Simply measured values or non-rated values (λ, λD) should not be used in calculations as these values do not incorporate safety factors to take into account potentially higher moisture content or different temperatures. The European Technical Approval ETA-17/0247 for “Baustroh” of BauStroh GmbH, gives a rated thermal conductivity λR-of 0.049 W/(mK) for small bales of 100 +/- 15 kg/m³ density, with thermal flux perpendicular to the direction of the straw stalks (figure 1, left).
  
  
-Best: Bales on edge or upright. Here, the thermal flux is perpendicular to the direction of the straw stalks, called ‘on edge’ or ‘upright’, see figure 2; the thickness of insulation is in this case 36 cm. Taking into account a wooden frame construction with 6 cm posts at 1 m centres, with clay plaster on the inside and lime plaster on the outside, the U-value of the wall will be 0.15 W/(m²K) at an overall thickness of 42 cm. With bales laid flat, resulting in 48 cm insulation thickness and 54 cm overall thickness (λR = 0.080 W/(mK)), the Uvalue is 0.17 W/(m²K). So, bales on edge are preferable regarding the Uvalue, as well as the space required for construction.+**Best: Bales on edge or upright.** Here, the thermal flux is perpendicular to the direction of the straw stalks, called ‘on edge’ or ‘upright’, see figure 2; the thickness of insulation is in this case 36 cm. Taking into account a wooden frame construction with 6 cm posts at 1 m centres, with clay plaster on the inside and lime plaster on the outside, the U-value of the wall will be 0.15 W/(m²K) at an overall thickness of 42 cm. With bales laid flat, resulting in 48 cm insulation thickness and 54 cm overall thickness (λR = 0.080 W/(mK)), the Uvalue is 0.17 W/(m²K). So, bales on edge are preferable regarding the Uvalue, as well as the space required for construction.
  
-[{{.:stroh_als_waermedaemmung_.png?200 |**Figure 2**: Bale orientation © PHI }}]+[{{:picopen:stroh_als_waermedaemmung_.png?200 |**Figure 2**: Bale orientation © PHI }}]
  
 **Checklist for straw bales.** The following characteristics should be assessed for construction bales: **Checklist for straw bales.** The following characteristics should be assessed for construction bales:
Line 26: Line 26:
 - No mouldy odour, Relative air humidity within the bale lower than 75% (mass-related humidity below 15%) - No mouldy odour, Relative air humidity within the bale lower than 75% (mass-related humidity below 15%)
  
-**Blow-in insulation.** Straw is also available as blow-in insulation. The ETA-18/0305 for the company “Sonnenklee” gives a λD = 0.055 W/(mK), resulting in a λR of approx. 0.057 W/(mK) at a density of between 105 and 140 kg/(m²). Taking into account a wooden frame construction with 6 cm posts at 62.5 cm centers, with OSB-board on the inside and 4 cm wood-fiber board on the outside, the use of 35 cm of blow-in insulation will achieve a U-value of 0.15 W/(m²K). This corresponds also to a wall thickness of 42 cm.+\\ 
 + 
 +**Blow-in insulation:** Straw is also available as blow-in insulation. The ETA-18/0305 for the company “Sonnenklee” gives a λD = 0.055 W/(mK), resulting in a λR of approx. 0.057 W/(mK) at a density of between 105 and 140 kg/(m²). Taking into account a wooden frame construction with 6 cm posts at 62.5 cm centers, with OSB-board on the inside and 4 cm wood-fiber board on the outside, the use of 35 cm of blow-in insulation will achieve a U-value of 0.15 W/(m²K). This corresponds also to a wall thickness of 42 cm.
  
 **Further notes**: Both straw bales and straw blown-in insulation is an untreated organic material. Because of that, it is of highest importance that the construction is airtight in order to prevent warm and humid air from getting through gaps into the wall, where condensation followed by mould growth would accour. This can be achieved by covering the straw from the inside with plaster, OSB-boards or membranes, in combination with proper sealing of the junctions(see PHI recommendations for “airtight construction”). Furthermore, it is favourable to have a higher vapour resistance inside than outside. For examplary straw bale building systems see [[https://database.passivehouse.com/en/components/|https://database.passivehouse.com/en/components/]] **Further notes**: Both straw bales and straw blown-in insulation is an untreated organic material. Because of that, it is of highest importance that the construction is airtight in order to prevent warm and humid air from getting through gaps into the wall, where condensation followed by mould growth would accour. This can be achieved by covering the straw from the inside with plaster, OSB-boards or membranes, in combination with proper sealing of the junctions(see PHI recommendations for “airtight construction”). Furthermore, it is favourable to have a higher vapour resistance inside than outside. For examplary straw bale building systems see [[https://database.passivehouse.com/en/components/|https://database.passivehouse.com/en/components/]]
efficiency_now/building_envelope/straw_as_insulation_material.1691413812.txt.gz · Last modified: by yaling.hsiao@passiv.de