EXHIBITION SPACE
CAFE
USEFULL TABLES
- Comfort criteria according to CIBSE
- Metabolic rates
- Clothing levels
- Heat gains due to equipment
REFERENCES
[1] Neufert P. et al, 2004. Construction and Architectural design. 4th greek ed. Athens: Moschos Gourdas.
[2] CIBSE, 2008. CIBSE Concise Handbook. [pdf]
[3] ASHRAE, 2013. 2013 ASHRAE Handbook - Fundamentals. SI ed. Atlanta: ASHRAE.
[4] Auliciems A. et al, 2007, Thermal Comfort [pdf] Passive and Low Energy Architecture International in association with the Department of Architecture, The University of Queensland Brisban.
IMAGES
[1] Neufert P. et al, 2004. Exhibition space with folding walls according to the architect K. Schneider, multiple configuration of the space. [Sketch] In: Construction and Architectural design, 4th greek ed. Athens: Moschos Gourdas, p. 593.
[2] Neufert P. et al, 2004. Directed movement. [Sketch] In: Construction and Architectural design, 4th greek ed. Athens: Moschos Gourdas, p. 594.
[3] Neufert P. et al, 2004. Free movement. [Sketch] In: Construction and Architectural design, 4th greek ed. Athens: Moschos Gourdas, p. 594.
[4] Neufert P. et al, 2004. Movement in front of paintings. [Sketch] In: Construction and Architectural design, 4th greek ed. Athens: Moschos Gourdas, p. 594.
[5] Neufert P. et al, 2004. Cafe. [Sketch] In: Construction and Architectural design, 4th greek ed. Athens: Moschos Gourdas, p. 459.
[6] Neufert P. et al, 2004. Minimum dimensions required for the tables. [Sketch] In: Construction and Architectural design, 4th greek ed. Athens: Moschos Gourdas, p. 457.
[7] CIBSE, 2008. Recommended comfort criteria for specific applications. [Table] In: CIBSE Concise Handbook, p. 3-5.
[8] Auliciems A. et al, 2007, Metabolic rates at different activities. [Table] In:Thermal Comfort, Passive and Low Energy Architecture International in association with the Department of Architecture, The University of Queensland Brisban, p.6.
[9] ASHRAE, 2013. Typical Metabolic Heat Generation for Various Activities [Table] In: 2013 ASHRAE Handbook - Fundamentals, SI ed. Atlanta: ASHRAE, p. 9.6.
[10] CIBSE, 2008. Typical metabolic rate and heat generation per unit area of
body surface for various activities. [Table] In: CIBSE Concise Handbook, p. 2.
[11] Auliciems A. et al, 2007, Insulating value of clothing elements. [Table] In:Thermal Comfort, Passive and Low Energy Architecture International in association with the Department of Architecture, The University of Queensland Brisban, p.9.[12] Auliciems A. et al, 2007, Insulation of clothing in clo units. [Image] In:Thermal Comfort, Passive and Low Energy Architecture International in association with the Department of Architecture, The University of Queensland Brisban, p.9.
[13] ASHRAE, 2013. Recommended Heat Gain from Typical Computer Equipment. [Table] In: 2013 ASHRAE Handbook - Fundamentals, SI ed. Atlanta: ASHRAE, p. 18.11.
[14] ASHRAE, 2013. Recommended Heat Gain from Typical Laser Printers and Copies [Table] In: 2013 ASHRAE Handbook - Fundamentals, SI ed. Atlanta: ASHRAE, p. 18.11.
[15] ASHRAE, 2013. Recommended Rates of Radiant Heat Gain from Hooded Gas Appliances During Idle (Ready-to-Cook) Conditions [Table] In: 2013 ASHRAE Handbook - Fundamentals, SI ed. Atlanta: ASHRAE, p. 18.9.
[16] ASHRAE, 2013. Recommended Rates of Radiant and Convective Heat Gain from Warewashing Equipment During Idle (Standby) or Washing Conditions [Table] In: 2013 ASHRAE Handbook - Fundamentals, SI ed. Atlanta: ASHRAE, p. 18.9.
[17] ASHRAE, 2013. Recommended Rates of Radiant and Convective Heat Gain from Unhooded Electric Appliances During Idle (Ready-to-Cook) Conditions [Table] In: 2013 ASHRAE Handbook - Fundamentals, SI ed. Atlanta: ASHRAE, p. 18.8.
[1] Neufert P. et al, 2004. Construction and Architectural design. 4th greek ed. Athens: Moschos Gourdas.
[2] CIBSE, 2008. CIBSE Concise Handbook. [pdf]
[3] ASHRAE, 2013. 2013 ASHRAE Handbook - Fundamentals. SI ed. Atlanta: ASHRAE.
[4] Auliciems A. et al, 2007, Thermal Comfort [pdf] Passive and Low Energy Architecture International in association with the Department of Architecture, The University of Queensland Brisban.
IMAGES
[1] Neufert P. et al, 2004. Exhibition space with folding walls according to the architect K. Schneider, multiple configuration of the space. [Sketch] In: Construction and Architectural design, 4th greek ed. Athens: Moschos Gourdas, p. 593.
[2] Neufert P. et al, 2004. Directed movement. [Sketch] In: Construction and Architectural design, 4th greek ed. Athens: Moschos Gourdas, p. 594.
[3] Neufert P. et al, 2004. Free movement. [Sketch] In: Construction and Architectural design, 4th greek ed. Athens: Moschos Gourdas, p. 594.
[4] Neufert P. et al, 2004. Movement in front of paintings. [Sketch] In: Construction and Architectural design, 4th greek ed. Athens: Moschos Gourdas, p. 594.
[5] Neufert P. et al, 2004. Cafe. [Sketch] In: Construction and Architectural design, 4th greek ed. Athens: Moschos Gourdas, p. 459.
[6] Neufert P. et al, 2004. Minimum dimensions required for the tables. [Sketch] In: Construction and Architectural design, 4th greek ed. Athens: Moschos Gourdas, p. 457.
[7] CIBSE, 2008. Recommended comfort criteria for specific applications. [Table] In: CIBSE Concise Handbook, p. 3-5.
[8] Auliciems A. et al, 2007, Metabolic rates at different activities. [Table] In:Thermal Comfort, Passive and Low Energy Architecture International in association with the Department of Architecture, The University of Queensland Brisban, p.6.
[9] ASHRAE, 2013. Typical Metabolic Heat Generation for Various Activities [Table] In: 2013 ASHRAE Handbook - Fundamentals, SI ed. Atlanta: ASHRAE, p. 9.6.
[10] CIBSE, 2008. Typical metabolic rate and heat generation per unit area of
body surface for various activities. [Table] In: CIBSE Concise Handbook, p. 2.
[11] Auliciems A. et al, 2007, Insulating value of clothing elements. [Table] In:Thermal Comfort, Passive and Low Energy Architecture International in association with the Department of Architecture, The University of Queensland Brisban, p.9.[12] Auliciems A. et al, 2007, Insulation of clothing in clo units. [Image] In:Thermal Comfort, Passive and Low Energy Architecture International in association with the Department of Architecture, The University of Queensland Brisban, p.9.
[13] ASHRAE, 2013. Recommended Heat Gain from Typical Computer Equipment. [Table] In: 2013 ASHRAE Handbook - Fundamentals, SI ed. Atlanta: ASHRAE, p. 18.11.
[14] ASHRAE, 2013. Recommended Heat Gain from Typical Laser Printers and Copies [Table] In: 2013 ASHRAE Handbook - Fundamentals, SI ed. Atlanta: ASHRAE, p. 18.11.
[15] ASHRAE, 2013. Recommended Rates of Radiant Heat Gain from Hooded Gas Appliances During Idle (Ready-to-Cook) Conditions [Table] In: 2013 ASHRAE Handbook - Fundamentals, SI ed. Atlanta: ASHRAE, p. 18.9.
[16] ASHRAE, 2013. Recommended Rates of Radiant and Convective Heat Gain from Warewashing Equipment During Idle (Standby) or Washing Conditions [Table] In: 2013 ASHRAE Handbook - Fundamentals, SI ed. Atlanta: ASHRAE, p. 18.9.
[17] ASHRAE, 2013. Recommended Rates of Radiant and Convective Heat Gain from Unhooded Electric Appliances During Idle (Ready-to-Cook) Conditions [Table] In: 2013 ASHRAE Handbook - Fundamentals, SI ed. Atlanta: ASHRAE, p. 18.8.