Recent content by RandomUserName

In regards to IMC 403.2.2: Say you have a building with two spaces; an office and a single bathroom. The bathroom has a single fixture and needs 50 CFM of exhaust; the office space has 5 occupants and is 416 SQ. FT. needing 50 CFM of outside air (5*5+416*0.06 = 50). Does the unit that serves...

Just a thought off the top of my head: 62.1 only requires ventilating spaces that are "occupiable spaces"; the definition of that excluding "those spaces that are intended primarily for other purposes, such as storage rooms and equipment rooms, and that are only occupied occasionally and for...

Thanks for following up! This has been a fun one. "When return air humidity [...]" What return air? I thought this was a DOAS + ACB system? If so there is no return air, only supply air from the DOAS and exhaust air. Even assuming they meant exhaust air humidity, they way that is worded...

dbill74, System we will tie-in to is on the first floor and goes up to the 7th floor where it is discharge via upblast centrifugal fan. 3025 CFM @ 1.25" w.c. We are literally the second to last branch on the system as the furthest away. Turn this into a fun homework problem and for now assume...

BronYrAur, That was my gut reaction as well and I showing that the contractor is to provide a balance damper on the discharge side of the booster fan but still upstream of the common node. Let's run with that thought and make some numbers up with it! Let's tie-in the branch in question to the...

That does not help answer by question at all. What do you believe happens at that connection point once the booster fan is turned on?

I am having trouble conceptualizing the following: I have a piece of equipment that needs to be exhausted. The piece of equipment has a pressure drop through it of 0.25" w.c. at the required flow of 25 CFM. I would like to tie-in the exhaust to the general building exhaust. Problem is, I am...

Correct. On an evaporator wet coils (in cooling) have much higher pressure drops than dry coils (in heating). As an example: I am currently looking at the cut sheet for a basic 4 ton nominal goodman residential unitary split DC evaporator (CAPF4860). At 1600 CFM the coil has a dry pressure drop...

If design numbers are as you said (DOAS SAT 55F), then the air will not remove the entire latent load; humidity will rise. The reason I had come to the conclusion that DOAS SAT was 50F was because the latent load (3450 BTU/hr) closely matched what 360 CFM could remove between 50F DB / 95% RH...

GMcD - Took all of 15 minutes ... at my rate it would probably only be $20! [lol]

As everyone else has said: You cannot make a room colder using warmer air.

Assume: Design Space Conditions: 75°F DB / 50% RH Primary Air Conditions: 50°F DB / 95% RH Primary Air flow: 360 cfm Latent load: 30 students * (115 BTU/hr/student) = 3450 BTU/hr Humidity Ratio in Space = 0.0092 lbw/lb Humidity Ratio of Primary Air = 0.0072 lbw/lb [Qlat (BTU/hr)] = [Airflow...

Just a quick double check: in the air system properties, on the sizing data tab, in zone sizing, you have correctly set your zone airflow sizing method and space airflow sizing method?

Carefully. Wouldn't want to screw up would ya!

Secondary pumps should always discharge into secondary circuits away from common piping. Doing so ensures an increase in secondary circuit pressure over that established in the common piping by the primary pump. The common piping can be considered as the compression tank “No pressure change...