PocketCalc
Structural
If you were designing an interior freestanding architectural wall (separate from the overall building design), anchored to the building slab, would you design it for any specific wind loads for an IBC-based design? It's obvious that it would need to be designed for a minimum of 5 psf per IBC 2021 Section 1607.16 (if the wall exceeds 6 feet in height). However, the requirement reads that interior walls "shall have adequate strength and stiffness to resist the loads to which they are subjected but not less than a horizontal load of 5 psf". This is clearly a live load, in the Live Loads section of the code, and not a wind load, and it states that they may be other loads to which the wall is subjected. I've heard in the past that this can account for any incidental interior "wind". The commentary seems to support that the 5 psf is to account for loads due to changes in air pressure from air conditioning, small impacts, etc., but does not specifically mention wind.
It seems obvious on the face of it that a typical wall internal to a building would not need to be designed for full exterior wind loads as they are not exposed to significant winds. However, there are sections of the code that imply otherwise: In 1609.1, "Buildings, structures and parts thereof shall be designed to withstand the minimum wind loads prescribed herein. Decreases in wind loads shall not be made for the effect of shielding by other structures." There is no exception provided for interior walls. That at least leaves open the possibility of arguing that decreases can be made for the effect of shielding by the same structure, which I guess you could potentially argue since freestanding does not seem to be clearly defined in the code? ASCE 7-22 reads slightly differently, though; Chapter 29 covers wind loads on Building Appurtenances and Other Structures, which includes solid freestanding walls, and would seem to also include solid freestanding walls interior to a structure. In 29.1.4, "There shall be no reductions in velocity pressure caused by apparent shielding afforded by buildings and other structures or terrain features." This would seem to imply that a solid freestanding wall designed to be placed within a fully enclosed building would need to be designed for a full wind load as if the building weren't there. Can you argue that an interior wall doesn't need to be designed for wind, so there's nothing to reduce? It seems not: In 26.1.1, "Buildings and other structures, including the main wind force resisting system (MWFRS) and all components and cladding (C&C) thereof, shall be designed and constructed to resist the wind loads determined in accordance with Chapters 26 through 31." This seems to apply to ALL structures, and provides no exceptions for interior structures or structural components.
Now, it seems apparent to me that these sections generally relate to shielding of exterior structures from adjacent structures, but it would be nice to have some support to that point of view. I've pored over the IBC and ASCE 7, both codes and commentaries, and I can't find anything solid to support the view that interior walls need not be designed for a full wind load. The only real hint that I can find is that it seems fairly unnecessary to create a 5 psf minimum load on interior walls if all interior walls are supposed to be designed for minimum wind loads anyway. It certainly does not seem common practice to design interior walls for full wind loads, but I thought I would get some other opinions.
It seems obvious on the face of it that a typical wall internal to a building would not need to be designed for full exterior wind loads as they are not exposed to significant winds. However, there are sections of the code that imply otherwise: In 1609.1, "Buildings, structures and parts thereof shall be designed to withstand the minimum wind loads prescribed herein. Decreases in wind loads shall not be made for the effect of shielding by other structures." There is no exception provided for interior walls. That at least leaves open the possibility of arguing that decreases can be made for the effect of shielding by the same structure, which I guess you could potentially argue since freestanding does not seem to be clearly defined in the code? ASCE 7-22 reads slightly differently, though; Chapter 29 covers wind loads on Building Appurtenances and Other Structures, which includes solid freestanding walls, and would seem to also include solid freestanding walls interior to a structure. In 29.1.4, "There shall be no reductions in velocity pressure caused by apparent shielding afforded by buildings and other structures or terrain features." This would seem to imply that a solid freestanding wall designed to be placed within a fully enclosed building would need to be designed for a full wind load as if the building weren't there. Can you argue that an interior wall doesn't need to be designed for wind, so there's nothing to reduce? It seems not: In 26.1.1, "Buildings and other structures, including the main wind force resisting system (MWFRS) and all components and cladding (C&C) thereof, shall be designed and constructed to resist the wind loads determined in accordance with Chapters 26 through 31." This seems to apply to ALL structures, and provides no exceptions for interior structures or structural components.
Now, it seems apparent to me that these sections generally relate to shielding of exterior structures from adjacent structures, but it would be nice to have some support to that point of view. I've pored over the IBC and ASCE 7, both codes and commentaries, and I can't find anything solid to support the view that interior walls need not be designed for a full wind load. The only real hint that I can find is that it seems fairly unnecessary to create a 5 psf minimum load on interior walls if all interior walls are supposed to be designed for minimum wind loads anyway. It certainly does not seem common practice to design interior walls for full wind loads, but I thought I would get some other opinions.