This is about Carbon Dioxide Calculation for Indoor Air Quality.Full description
This Intergovernmental Panel on Climate Change (IPCC) Special Report provides information for policymakers, scientists and engineers in the field of climate change and reduction of CO2 emissions. ...
Full description
eon regler
This report presents the economics of Monoethylene Glycol (MEG) production from carbon dioxide (CO2) using an electrochemical process. The process examined is similar to Liquid Light process. This ...Full description
Full description
Carbon Dioxide in Ammine SolutionFull description
BILGE SYSTEM CALCULATION, Marine Engineering, Ship Bilge System, Design of Bilge SystemFull description
Full description
Uploaded from Google Docs
Full description
Full description
Shop Drawing - A2 FormworkRCalculation Report - A2 System Formwork
Descripción completa
Descripción: La cianuración es un proceso que se aplica al tratamiento de las menas de oro, desde hace muchos años. Se basa en que el oro nativo, plata o distintas aleaciones entre estos, son solubles en soluci...
nanotechnology
cara membuat carbon fiber
CARBON DIOXIDE SYSTEM CALCULATION
Reference to NFPA 12 (2000 Edition), MS 1590 :2003 Carbon Dioxide Requirements For Deep Seated Fire.
Project
:
Eon Metal Sdn. Bhd.
Location
:
Valdor
Area
:
Room B
Volume of Space
: 12m (W) x 5.8m (L) x 3.5m (H) : 243.6 m³
Design Criteria
: Dry electrical, wiring insulation hazards in general (not less than 200 lbs (91 kg).
System
: Total Flooding
Design Concentration
: 50%
Rate of Discharge
: To reach design concentration within 7 minutes (For Deep Seated Fires but rate will not be less than required to develop a concentration of 30% in 2 mins.
Ambient Temperature
: 30 deg.C
Volume Factor For Total Flooding
: 1.33 kg CO2/m³
Amount of CO2 Gas Needed For Total Flooding
: 243.6m³ x 1.33 kg/m³ kg/m³ : 324 kg
Assume openings are covered by drop curtains on activation of CO2 discharge, compensation is not required. Allow Safety Factor
: 10%
Total CO2 Gas Required
: 324 x 1.1 : 356.4 kg.
Total Quantity Provided
: 356.4 kg. ( 8 Nos. of 45 45 kg CO2 CO2 Cylinders )
CARBON DIOXIDE SYSTEM CALCULATION
Reference to NFPA 12 (2000 Edition), MS 1590 :2003 Carbon Dioxide Requirements For Deep Seated Fire.
Project
:
Eon Metal Sdn. Bhd.
Location
:
Valdor
Area
:
Room C
Volume of Space
: 5.8m (W) x 5.2m (L) x 3.5m (H) : 105.6 m³
Design Criteria
: Dry electrical, wiring insulation hazards in general (not less than 200 lbs (91 kg).
System
: Total Flooding
Design Concentration
: 50%
Rate of Discharge
: To reach design concentration within 7 minutes (For Deep Seated Fires but rate will not be less than required to develop a concentration of 30% in 2 mins.
Ambient Temperature
: 30 deg.C
Volume Factor For Total Flooding
: 1.33 kg CO2/m³
Amount of CO2 Gas Needed For Total Flooding
: 105.6 m³ x 1.33 kg/m³ : 140 kg
Assume openings are covered by drop curtains on activation of CO2 discharge, compensation is not required. Allow Safety Factor
: 10%
Total CO2 Gas Required
: 140 x 1.1 : 154kg.
Total Quantity Provided
: 154 kg. ( 4 Nos. of 45 kg CO2 Cylinders )
CARBON DIOXIDE SYSTEM CALCULATION
Reference to NFPA 12 (2000 Edition), MS 1590 :2003 Carbon Dioxide Requirements For Deep Seated Fire.
Project
:
Eon Metal Sdn. Bhd.
Location
:
Valdor
Area
:
Room D
Volume of Space
: 6.1m (W) x 5.2m (L) x 3.5m (H) : 111 m³
Design Criteria
: Dry electrical, wiring insulation hazards in general (not less than 200 lbs (91 kg).
System
: Total Flooding
Design Concentration
: 50%
Rate of Discharge
: To reach design concentration within 7 minutes (For Deep Seated Fires but rate will not be less than required to develop a concentration of 30% in 2 mins.
Ambient Temperature
: 30 deg.C
Volume Factor For Total Flooding
: 1.33 kg CO2/m³
Amount of CO2 Gas Needed For Total Flooding
: 111 m³ x 1.33 kg/m³ : 147.6 kg
Assume openings are covered by drop curtains on activation of CO2 discharge, compensation is not required. Allow Safety Factor