If using convection, the doors will always be open and the air-flow will be a chimney spiral upwards, drawing air-conditioned air inwards for a building (instead of leaking outwards, and sorting hot and cold air by (...)tower-effect
@@aircondloungethe air goes up with established and sustained momentum. Out is optional. Extraction is optional. Using different stories to pump-out different air-pollutants(particulate floatation, layers) are options (petrolchemical many types of towers applied conceptually). House with stair-well(integrated air-well - bigger hole) with stairs leading to roof-top garden can have the door on roof-top open with a fan blowing outwards (assisted convection). Also can have a fan blowing inwards at ground level (assisted convection). Air vector change is drag Convection is movement Assisted is acceleration/maintain-vector Spiral should be half-drag, other half facilitated = left right half = up down half Dusty-Paint(emulsion) is slippery to air (assist convection upwards at the expense of air-speed) Glossy-paint(oil-based/enamel/plastic is grippy to air (vector air, using air-drag) Pressurisation is usually good for subsequent rapid depressurisation for big-"vacuum"-effect Density of air at differet stories is minor-pressurisation Air-speed increase by desk-fan and air-ducting is also minor pressurisation. Rapid depressurisation of volume into speed is easy.
It looks like a ventilation system? Using the principle of heat always flow upward. I’ve seen such a design to reduce air conditioning power, known as convection cooling or passive cooling.
@@aircondlounge that is partly correct. Typical passive-cooling attempts to use air-flow without sparing a thought for the air. Air-speed converts to air-pressure interchangeably. The constant of air is not a simple formula but a pair of formulae applied in halving-ratio of space-distance and velocity-pressure, giving the banding-observation of air-flow within a straight pipe. The spirals, propellers, toroidal-propeller, of aircrafts and boats, of today, did not demonstrate this understanding and apply it to buildings. Every wall-surface, every floor-surface, every turn, every slope-stairs are to be treated as half-spiral and apply half-to-half interchange. Example, to have air flow spiral-up using the slope of stairs, air will brush against the wall which is drag. This drag should be compensated by another factor which can be either dusty-wall-paint to reduce drag or bigger-volume to create a bias to that direction. The build up of air leads to capacitance before the entire band rises again. This capacitance is to be accepted as the other formular and its effects used instead of defeating it. In this manner, nature being not constant becomes an observeable and useable constant. Without using pairing of concepts and apply using banding, the convection will lose momentum and require assistance in the form of motors. Sails, vanes, hand-held paper wind-mills, impellers, ... - are a form of controlled release of air capacitance by delay and not-acceleration. The current issues of cooled-heated conditioned-air leaking from buildings is a big-issue excerbated by pressurised stair-wells and doors with fire-alarms for fire-"safety". Modern designed building infernos are proves that pressurisation of stair-wells do-not work-well in reality.
If using convection, the doors will always be open and the air-flow will be a chimney spiral upwards, drawing air-conditioned air inwards for a building (instead of leaking outwards, and sorting hot and cold air by (...)tower-effect
Interesting, is that a type of smoke extraction system?
@@aircondloungethe air goes up with established and sustained momentum. Out is optional. Extraction is optional. Using different stories to pump-out different air-pollutants(particulate floatation, layers) are options (petrolchemical many types of towers applied conceptually).
House with stair-well(integrated air-well - bigger hole) with stairs leading to roof-top garden can have the door on roof-top open with a fan blowing outwards (assisted convection). Also can have a fan blowing inwards at ground level (assisted convection).
Air vector change is drag
Convection is movement
Assisted is acceleration/maintain-vector
Spiral should be half-drag, other half facilitated
= left right half
= up down half
Dusty-Paint(emulsion) is slippery to air (assist convection upwards at the expense of air-speed)
Glossy-paint(oil-based/enamel/plastic is grippy to air (vector air, using air-drag)
Pressurisation is usually good for subsequent rapid depressurisation for big-"vacuum"-effect
Density of air at differet stories is minor-pressurisation
Air-speed increase by desk-fan and air-ducting is also minor pressurisation. Rapid depressurisation of volume into speed is easy.
It looks like a ventilation system? Using the principle of heat always flow upward. I’ve seen such a design to reduce air conditioning power, known as convection cooling or passive cooling.
Oh, and, asians smoke in stair-wells is holy-grail... and their stash can be sorted to pose pertinent questions on the origination of private-smokes
@@aircondlounge that is partly correct. Typical passive-cooling attempts to use air-flow without sparing a thought for the air. Air-speed converts to air-pressure interchangeably. The constant of air is not a simple formula but a pair of formulae applied in halving-ratio of space-distance and velocity-pressure, giving the banding-observation of air-flow within a straight pipe. The spirals, propellers, toroidal-propeller, of aircrafts and boats, of today, did not demonstrate this understanding and apply it to buildings.
Every wall-surface, every floor-surface, every turn, every slope-stairs are to be treated as half-spiral and apply half-to-half interchange. Example, to have air flow spiral-up using the slope of stairs, air will brush against the wall which is drag. This drag should be compensated by another factor which can be either dusty-wall-paint to reduce drag or bigger-volume to create a bias to that direction. The build up of air leads to capacitance before the entire band rises again. This capacitance is to be accepted as the other formular and its effects used instead of defeating it. In this manner, nature being not constant becomes an observeable and useable constant. Without using pairing of concepts and apply using banding, the convection will lose momentum and require assistance in the form of motors. Sails, vanes, hand-held paper wind-mills, impellers, ... - are a form of controlled release of air capacitance by delay and not-acceleration.
The current issues of cooled-heated conditioned-air leaking from buildings is a big-issue excerbated by pressurised stair-wells and doors with fire-alarms for fire-"safety". Modern designed building infernos are proves that pressurisation of stair-wells do-not work-well in reality.