Help understanding the wave forms and the modes of mechanical ventilation.Descripción completa
Full description
MATERIAL MUY BUENO PARA DESACTIVAR LA PROTECCION DE LOS INVERTERDescripción completa
Ventilation, Perfusion and Ventilation-Perfusion Relationships
Whatever is needed is inside
Scaffolding Design Calculation in accordance to BSFull description
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Scaffolding Design Calculation in accordance to BSFull description
Excel sheet for pile design
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Excel sheet for pile design
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WIND CALCULATION FOR CANOPYFull description
CALCULATIONS FOR DRY PRESSURISED PRESSURISED AND EXHAUST VENTILATION VENTILATION SYSTEM 1 2 3
OUTSIDE DESIGN CONDITION Outside DBT( Tout) in C Maximum Temperature Rise( ∆ T) in
36.3 0
C
0
4
Inside DBT(Tin) in C Dens Densit ity y Corr Correc ecti tion on Fact Factor or
1 2 3 4 5 6
EQUIPMENT HEAT LOAD Inverter Rating (KW ) Euro efficiency (%) Loss as heat in inverter (KW ) Loss in Aux power consumption(KW ) Total loss as heat (KW ) Total lo loss as as heat fo for tw two i nv nverters (K (KW )
7
Loss in UPS (KW )
0.40
8
Loss in LT panel (KW )
0.10
9
Total loss as heat in inverter room
S.No. Bu Building
1.0 1.0
Inv Inverte erterr Room Room
1.1
Inverter Room
:- Max. Average temp as per data shown below
3 39.3 0.94 0.94
500.00 98.20 9.165 0.413 9.58 19.16
19.66 Design Input Calculation Equipmen Lighting Total Volume of Air Air Air Qty as Max. of t Heat Load Heat Load the Changes Requirement Per Air air Load Building per Hour as per heat Changes requirem load ent as per heat load & as per air chan es Heq Hlgt HT V ACPH QH QA Q KW KW KW Cu.M CMH CMH CMH =1W/Sq =Heq+Hlgt =A* =HT *1000/(C P =V * =max of ft height of ACPH QH and QA * ∆T * Density building of air*Density Correction factor) 19.66
