From: James Stewart <jstewart**At_Symbol_Here**EHEINC.COM>
Subject: Re: [DCHAS-L] Fume hoods purge buttons
Date: Wed, 14 Aug 2013 11:16:33 +0000
Reply-To: DCHAS-L <DCHAS-L**At_Symbol_Here**MED.CORNELL.EDU>
Message-ID: 4C52B4C009C2974DA0BC0A1BDC6CC7FE03393A**At_Symbol_Here**493326-MARS3.EHE.local
In-Reply-To <8D0668B69E426F1-142C-25176**At_Symbol_Here**webmail-m218.sysops.aol.com>


There is an easy way to get to the answers to both questions, i.e. the generation rate and the room concentrations. The AIHA provides mathematical exposure modeling software called IHMOD. It is set up to calculate the evaporation rate and along with that offers a wide range of exposure models including well mixed box models, two zone models, eddy diffusion etc. There are models that use constant generation rate or exponentially decreasing generation rate (where the size of the evaporating source is decreasing as evaporation occurs). The software is free and is an Excel application. Just search on "AIHA IHMOD download" and you will see the AIHA download page. The models have "sliders" that allow you to see the effect of decreasing or increasing any of the input parameters. So to see the impact of less of more ventilation or a smaller or larger spill is very easy and the results are shown graphically. It runs on most any version of Excel.

Jim

James H Stewart, Ph.D., CIH, CSP

Director, Building Science and Forensics

Environmental Health & Engineering, Inc.

117 Fourth Ave

Needham, MA 02494

800-825-5343

________________________________
From: DCHAS-L Discussion List [dchas-l**At_Symbol_Here**MED.CORNELL.EDU] on behalf of Monona Rossol [actsnyc**At_Symbol_Here**CS.COM]
Sent: Tuesday, August 13, 2013 6:27 PM
To: DCHAS-L**At_Symbol_Here**MED.CORNELL.EDU
Subject: Re: [DCHAS-L] Fume hoods purge buttons

In fact, that's exactly what I'll be thinking about. Our displacement systems usually are set up to provide supply at just about head level on one side of the room with exhaust on the opposite side of the room via a countertop slot hood and a large floor to reach level perforated plenum exhaust behind a large drying rack. So we don't have to consider much of the ceiling area in our calculations. The displacement is mostly in the breathing zone and near the floor. Since painters use somewhere around an ounce or two of solvent on canvases and tabards in the open, I have done the calculations for this many times. We recommend a particular solvent because the molecular weight of the solvent, evaporation rate, TLV, etc., are all part of the calculations.

So If this is primarily the only solvent in the room (TLV 100 ppm) with perhaps a little turpentine thrown in (TLV 20 ppm), I should be able to figure a rate for a spill of a gallon of one and a pint of the other which would be worst case scenario.

I will admit we have a much easier issue here than you people who must plan for gosh only knows what chemical. But even without knowing all of the parameters, I don't see a lot of down side to getting the air moving as fast as possible through the same duct work, explosion-proof fan, and stack on the roof that is used for regular exhaust.
Monona Rossol, M.S., M.F.A., Industrial Hygienist
President: Arts, Crafts & Theater Safety, Inc.
Safety Officer: Local USA829, IATSE
181 Thompson St., #23
New York, NY 10012 212-777-0062
actsnyc**At_Symbol_Here**cs.com www.artscraftstheatersafety.org<http://www.artscraftstheatersafety.org>


-----Original Message-----
From: Ralph B. Stuart
To: DCHAS-L
Sent: Tue, Aug 13, 2013 1:53 pm
Subject: Re: [DCHAS-L] Fume hoods purge buttons

> And I can see how a purge system that would keep the atmosphere in a lab somewhat under control in an emergency could be useful. A purge system might preclude a spill getting out of hand to the point that SCBA would be necessary. Or it could prevent a solvent spill vapor concentration from ever reaching the LEL.

I guess my question is: What is the ventilation rate associated with "purge" mode? I can understand how some assumptions about this could be made in a specific setting such as theater stage with a limited set of emission scenarios to consider. However, in a generic laboratory with multiple potential pollutants located in a variety of places, I think that a design engineer would have a harder time specifying what higher flow rate is appropriate. It would depend on the hazard being protected against (e.g. flammability or toxicity) as well as the geometry of the room. Of course, we have similar concerns in laboratories under normal operating conditions, as the variability in laboratory ventilation effectiveness applies to that situation as well?

- Ralph

Ralph Stuart CIH
Chemical Hygiene Officer
Department of Environmental Health and Safety
Cornell University

rstuart**At_Symbol_Here**cornell.edu

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