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Peter Teige, Application Engineering Manager, AHRI Member Technical Training, October 12, 2016
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Dedicated Outdoor Air Systems:
AHRI 920, ISMRE & ASHRAE 90.1
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•AHRI 920: Establishes Efficiency Metric for DOAS
•Munters’ ISMRE: Highest in the industry
•ASHRAE 90.1-2013 Introduces Minimum ISMRE values. Munters exceeds by 2X!
Overview
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AHRI 920
Munters DryCool HCU & ERV units are Dedicated Outdoor Air Systems (DOAS) and are designed to deliver air at a room neutral temperature (typically 70-80 degrees) and a low dew point (typically 45-55 degrees dew point) and their primary purpose is to remove moisture from the ventilation air prior to its introduction into a conditioned space, and if the air is delivered below the required space dew point, it can also handle internal latent loads. DOAS are therefore primarily dehumidifiers, and as such, a new standard has been developed with a more appropriate and meaningful metric by which to measure their efficiency: AHRI 920 and Moisture Removal Efficiency (MRE).
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MRE & ISMRE Efficiency Metric
MRE is defined as pounds of moisture removed per kWh (lb/kWh). It is therefore a measure of the latent work done divided by total power input, as opposed to the more familiar efficiency metric in HVAC, Energy Efficiency Ratio (EER), which is a measure of the total (sensible + latent) work done divided by total power input.
Similar to EER, MRE can be expressed in several different ways. An application MRE can be developed for a single unit and operating point, or the unit performance at four different conditions can be combined per the formulas in AHRI 920 to define a product's ISMRE, its Integrated Seasonal Moisture Removal Efficiency, similar to IEER.
AHRI has recognized that single point efficiency ratings are not the best way to measure the efficiency of a product as it ignores part-load conditions, which are far more common than design conditions. Therefore, the primary metric to be used on this type of equipment for comparison is the ISMRE number.
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Munters Equipment MRE
Munters has long promoted the DryCool process as more energy efficient for DOAS than the brute force cool-reheat process. The efficiency advantage can easily be shown on a psychrometric chart, plotting out the different paths these two processes take. The introduction of the MRE metric has allowed for this advantage to be quantified. Calculating the MRE values for Munters DryCool and brute force models has verified the 30-60% energy advantage on design day. Interestingly, the MRE value is very stable for a given piece of equipment and a given set of incoming conditions. So regardless of whether you are seeking a low supply dew point or a room neutral supply dew point, Munters energy advantage remains. DryCool equipment is not just for low dew points (although it does that!). DryCool is for anyone who wants industry leading DOAS efficiency for any DOAS application. Period.
Munters performance and sales software, Munters Air Manager, has been calculating and reporting application MRE values for all HCU and ERV equipment since 2013.
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• MRE does not change versus supply air between 45 and 55 degrees dew point
–Munters DryCool technology most efficient regardless of supply dew point
• 95°F/78°F ambient:
–50 ton brute force cool reheat system: 45, 50, 55 DP => MRE = 4.2
–30 ton HCU: 45, 50, 55 DP => MRE = 6.7 (60% less energy)
• 80°F/73°F – part load:
–50 ton overcool reheat system: 45, 50, 55 DP => MRE = 5.4
–30 ton HCU: 45, 50, 55 DP => MRE = 8.6 (60% less energy)
MRE vs. Supply Dew Point
Hum
idity
Rat
io G
rain
s of
Moi
stur
e pe
r Pou
nd o
f Dry
Air
(gr/
lb)
20
Hum
idity
Rat
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rain
s of
Moi
stur
e pe
r Pou
nd o
f Dry
Air
(gr/
lb)
Hum
idity
Rat
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rain
s of
Moi
stur
e pe
r Pou
nd o
f Dry
Air
(gr/
lb)
40
Hum
idity
Rat
io G
rain
s of
Moi
stur
e pe
r Pou
nd o
f Dry
Air
(gr/
lb)
Hum
idity
Rat
io G
rain
s of
Moi
stur
e pe
r Pou
nd o
f Dry
Air
(gr/
lb)
60
Hum
idity
Rat
io G
rain
s of
Moi
stur
e pe
r Pou
nd o
f Dry
Air
(gr/
lb)
Hum
idity
Rat
io G
rain
s of
Moi
stur
e pe
r Pou
nd o
f Dry
Air
(gr/
lb)
80
Hum
idity
Rat
io G
rain
s of
Moi
stur
e pe
r Pou
nd o
f Dry
Air
(gr/
lb)
Hum
idity
Rat
io G
rain
s of
Moi
stur
e pe
r Pou
nd o
f Dry
Air
(gr/
lb)
100
Hum
idity
Rat
io G
rain
s of
Moi
stur
e pe
r Pou
nd o
f Dry
Air
(gr/
lb)
Hum
idity
Rat
io G
rain
s of
Moi
stur
e pe
r Pou
nd o
f Dry
Air
(gr/
lb)
120
Hum
idity
Rat
io G
rain
s of
Moi
stur
e pe
r Pou
nd o
f Dry
Air
(gr/
lb)
Hum
idity
Rat
io G
rain
s of
Moi
stur
e pe
r Pou
nd o
f Dry
Air
(gr/
lb)
140
Hum
idity
Rat
io G
rain
s of
Moi
stur
e pe
r Pou
nd o
f Dry
Air
(gr/
lb)
Hum
idity
Rat
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rain
s of
Moi
stur
e pe
r Pou
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f Dry
Air
(gr/
lb)
Hum
idity
Rat
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rain
s of
Moi
stur
e pe
r Pou
nd o
f Dry
Air
(gr/
lb)
10 20 30 40 50 60 70 80 90 100 110
Dry Bulb Temperature °F
HCU doesn’t need to cool to as low a temperature, so it saves significant energy over DX systems
Comparison of HCU vs. Cool-Reheat
93°F
110 gr/lb
75°F
60 gr/lbReheat
HCU – Desiccant enhanced dehumidifier
Cooling-Reheat dehumidifiers require 30% to 40% additional cooling to
achieve same dew point
Hum
idity
Rat
io G
rain
s of
Moi
stur
e pe
r Pou
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f Dry
Air
(gr/
lb)
20
Hum
idity
Rat
io G
rain
s of
Moi
stur
e pe
r Pou
nd o
f Dry
Air
(gr/
lb)
Hum
idity
Rat
io G
rain
s of
Moi
stur
e pe
r Pou
nd o
f Dry
Air
(gr/
lb)
40
Hum
idity
Rat
io G
rain
s of
Moi
stur
e pe
r Pou
nd o
f Dry
Air
(gr/
lb)
Hum
idity
Rat
io G
rain
s of
Moi
stur
e pe
r Pou
nd o
f Dry
Air
(gr/
lb)
60
Hum
idity
Rat
io G
rain
s of
Moi
stur
e pe
r Pou
nd o
f Dry
Air
(gr/
lb)
Hum
idity
Rat
io G
rain
s of
Moi
stur
e pe
r Pou
nd o
f Dry
Air
(gr/
lb)
80
Hum
idity
Rat
io G
rain
s of
Moi
stur
e pe
r Pou
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f Dry
Air
(gr/
lb)
Hum
idity
Rat
io G
rain
s of
Moi
stur
e pe
r Pou
nd o
f Dry
Air
(gr/
lb)
100
Hum
idity
Rat
io G
rain
s of
Moi
stur
e pe
r Pou
nd o
f Dry
Air
(gr/
lb)
Hum
idity
Rat
io G
rain
s of
Moi
stur
e pe
r Pou
nd o
f Dry
Air
(gr/
lb)
120
Hum
idity
Rat
io G
rain
s of
Moi
stur
e pe
r Pou
nd o
f Dry
Air
(gr/
lb)
Hum
idity
Rat
io G
rain
s of
Moi
stur
e pe
r Pou
nd o
f Dry
Air
(gr/
lb)
140
Hum
idity
Rat
io G
rain
s of
Moi
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e pe
r Pou
nd o
f Dry
Air
(gr/
lb)
Hum
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Rat
io G
rain
s of
Moi
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f Dry
Air
(gr/
lb)
Hum
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Rat
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rain
s of
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f Dry
Air
(gr/
lb)
10 20 30 40 50 60 70 80 90 100 110
Dry Bulb Temperature °F
Comparison of DryCool-ERV vs. Cool-Reheat
75°F
60 gr/lbReheat
HCU/ERV – Desiccant enhanced dehumidifier
mech cooling load
Cooling-Reheat dehumidifiers require 30% to 60% additional cooling to
achieve same dew point
$$$
Energy Wheel Removes Significant Load on Design
Days!!
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Munters Equipment ISMRE
Munters has calculated all values for ISMRE for all DryCool DX products. The ISMRE value is fixed for a given piece of equipment and is the best point of comparison for seasonal efficiency and cost to operate. As more manufacturers of DOAS equipment publish this information, it will become easier to compare specific models required for any given project and determine what the most energy efficiency choice is. Munters ISMRE calculations for each piece of equipment is shown on the following pages.
Today, there is not much to compare these numbers against. Other manufacturer’s equipment is really the only benchmark. There are no efficiency standards in place establishing requirements for this type of equipment. But we won’t have to wait long.
Munters Calculated ISMRE for units without heat recovery
Munters Model NumberAirflow
rateDB °F WB °F DB °F WB °F gr/lb DP °F
Electrical Power Input (kW)
Supplementary heat
penalty (kW)
Total Power Input (kW)
MRC(lb/h)
MRE(lb/kWh)
ISMRE
HCUc-2408AAD-BOB0000 2,000 95 78 77 61.5 58 52 11.1 0.0 11.1 77.2 7.0 0.12HCUc-2408AAD-BOB0000 2,000 80 73 72 59.2 55 50.6 7.8 0.0 7.8 73.4 9.4 0.28HCUc-2408AAD-BOB0000 2,000 68 66 76 62.3 62 54.1 3.6 0.0 3.6 39.2 10.9 0.36HCUc-2408AAD-BOB0000 2,000 60 58 67 54.6 44 45 3.4 1.9 5.3 31.7 6.0 0.24
8.8HCUc-3415AAD-BOB0000 3,000 95 78 75 60.2 55 50.5 17.7 0.0 17.7 122.1 6.9 0.12HCUc-3415AAD-BOB0000 3,000 80 73 73 59.7 56 51.2 12.2 0.0 12.2 106 8.7 0.28HCUc-3415AAD-BOB0000 3,000 68 66 70 57.6 52 49.1 8.4 0.0 8.4 79.3 9.4 0.36HCUc-3415AAD-BOB0000 3,000 60 58 67 55 45 45.5 5.4 2.8 8.2 45.8 5.6 0.24
8.0HCUc-4020AAD-BOB0000 4,000 95 78 78 61.5 55 50.8 23.5 0.0 23.5 161.1 6.9 0.12HCUc-4020AAD-BOB0000 4,000 80 73 76 61 57 51.4 17.1 0.0 17.1 142.6 8.3 0.28HCUc-4020AAD-BOB0000 4,000 68 66 72 58.5 52 49.2 11.6 0.0 11.6 105.5 9.1 0.36HCUc-4020AAD-BOB0000 4,000 60 58 69 55.7 46 45.8 7.7 1.3 9.0 60.1 6.7 0.24
8.0HCUc-6030AAD-BOB0000 5,000 95 78 74 57.4 44 44.8 35.5 0.0 35.5 237.6 6.7 0.12HCUc-6030AAD-BOB0000 5,000 80 73 73 57.4 45 45.6 24.5 0.0 24.5 210.8 8.6 0.28HCUc-6030AAD-BOB0000 5,000 68 66 72 56.6 44 45 16.7 0.0 16.7 156.5 9.4 0.36HCUc-6030AAD-BOB0000 5,000 60 58 70 55.1 40 42.5 10.4 0.0 10.4 92.2 8.9 0.24
7.9HCUc-6030AAD-BOB0000 6,000 95 78 77 60.7 53 49.9 37.0 0.0 37.0 249.3 6.7 0.12HCUc-6030AAD-BOB0000 6,000 80 73 75 59.9 54 50 25.8 0.0 25.8 221.3 8.6 0.28HCUc-6030AAD-BOB0000 6,000 68 66 72 58.2 51 48.6 17.9 0.0 17.9 162.8 9.1 0.36HCUc-6030AAD-BOB0000 6,000 60 58 69 55.5 45 45.1 11.4 1.9 13.3 94.4 7.1 0.24
8.2
Ambient Temp Supply Conditions
Munters Calculated ISMRE for units without heat recovery (cont’d)
Munters Model NumberAirflow
rateDB °F WB °F DB °F WB °F gr/lb DP °F
Electrical Power Input (kW)
Supplementary heat
penalty (kW)
Total Power Input (kW)
MRC(lb/h)
MRE(lb/kWh)
ISMRE
HCUc-8040AAD-BOB0000 8,000 95 78 75 59.1 49 47.6 52.2 0.0 52.2 354.8 6.8 0.12HCUc-8040AAD-BOB0000 8,000 80 73 73 58.4 50 48.1 37.2 0.0 37.2 314.3 8.4 0.28HCUc-8040AAD-BOB0000 8,000 68 66 71 57.2 48 47.2 25.6 0.0 25.6 229.9 9.0 0.36HCUc-8040AAD-BOB0000 8,000 60 58 69 55.1 43 44.2 16.2 2.5 18.7 134 7.2 0.24
8.1HCUc-1250AAD-BOB0000 10,000 95 78 81 61.7 52 49.1 56.2 0.0 56.2 425.1 7.6 0.12HCUc-1250AAD-BOB0000 10,000 80 73 77 60.6 53 49.9 40.8 0.0 40.8 370.2 9.1 0.28HCUc-1250AAD-BOB0000 10,000 68 66 73 58.4 49 47.8 27.7 0.0 27.7 280.8 10.1 0.36HCUc-1250AAD-BOB0000 10,000 60 58 70 56.2 45 45.4 17.5 0.0 17.5 154.1 8.8 0.24
9.2HCUc-1260AAD-BOB0000 12,000 95 78 78 60.3 50 48.4 77.7 0.0 77.7 521.3 6.7 0.12HCUc-1260AAD-BOB0000 12,000 80 73 74 59.3 51 48.9 56.2 0.0 56.2 466.7 8.3 0.28HCUc-1260AAD-BOB0000 12,000 68 66 79 62.9 61 53.2 24.5 0.0 24.5 250.4 10.2 0.36HCUc-1260AAD-BOB0000 12,000 60 58 69 55.3 43 44.1 23.9 3.8 27.7 202.2 7.3 0.24
8.6HCUc-1680AAD-BOB0000 16,000 95 78 78 60.6 52 49.3 103.6 0.0 103.6 675.8 6.5 0.12HCUc-1680AAD-BOB0000 16,000 80 73 74 59.7 54 50 75 0.0 75.0 600.1 8.0 0.28HCUc-1680AAD-BOB0000 16,000 68 66 71 57.6 49 47.7 51.1 0.0 51.1 450.9 8.8 0.36HCUc-1680AAD-BOB0000 16,000 60 58 69 55.3 43 44.5 32.9 5.1 38.0 263.2 6.9 0.24
7.9
Ambient Temp Supply Conditions
Munters Calculated ISMRE for units with heat recovery
Munters Model NumberAirflow
rateDB °F WB °F DB °F WB °F DB °F WB °F gr/lb DP °F
Electrical Power Input (kW)
Supplementary heat
penalty (kW)
Total Power Input (kW)
MRClb/h
MRElb/kWh
ISMRE
ERVc-2508AAD-BBBS15M 2,500 95 78 75 62.5 78 60.6 52 48.9 9.3 0.0 9.3 106.7 11.5 0.12ERVc-2508AAD-BBBS15M 2,500 80 73 75 62.5 78 60.7 52 49.3 7.8 0.0 7.8 95.9 12.3 0.28ERVc-2508AAD-BBBS15M 2,500 68 66 75 62.5 77 59.9 50 48 7.1 0.0 7.1 69.5 9.8 0.36ERVc-2508AAD-BBBS15M 2,500 60 58 75 59.5 70 54.5 40 42 7.1 0.0 7.1 47.3 6.7 0.24
9.9ERVc-3010AAD-BBBS15M 3,000 95 78 75 62.5 79 59.6 46 45.8 13.4 0.0 13.4 139.2 10.4 0.12ERVc-3010AAD-BBBS15M 3,000 80 73 75 62.5 79 60.6 50 48.4 10.4 0.0 10.4 118.6 11.4 0.28ERVc-3010AAD-BBBS15M 3,000 68 66 75 62.5 79 60.2 48 46.9 9.2 0.0 9.2 87.4 9.5 0.36ERVc-3010AAD-BBBS15M 3,000 60 58 75 59.5 72 54.8 37 40.6 9.1 0.0 9.1 61 6.7 0.24
9.5ERVc-4012AAD-BBB0000 4,000 95 78 75 62.5 78 60.7 51 48.8 17.8 0.0 17.8 171.2 9.6 0.12ERVc-4012AAD-BBB0000 4,000 80 73 75 62.5 78 61.9 57 51.5 12.4 0.0 12.4 142 11.5 0.28ERVc-4012AAD-BBB0000 4,000 68 66 75 62.5 77 60.5 52 49.3 10.9 0.0 10.9 104.9 9.6 0.36ERVc-4012AAD-BBB0000 4,000 60 58 75 59.5 69 54.7 40 42.6 10.7 1.3 12.0 73.3 6.1 0.24
9.3ERVc-5416AAD-BBB0000 5,400 95 78 75 62.5 79 61.2 52 49.2 22.2 0.0 22.2 228.8 10.3 0.12ERVc-5416AAD-BBB0000 5,400 80 73 75 62.5 78 61.5 55 50.8 16.4 0.0 16.4 196.6 12.0 0.28ERVc-5416AAD-BBB0000 5,400 68 66 75 62.5 77 60.3 51 48.9 14.2 0.0 14.2 144.2 10.2 0.36ERVc-5416AAD-BBB0000 5,400 60 58 75 59.5 70 54.7 40 42.2 14.2 0.0 14.2 101.2 7.1 0.24
10.0ERVc-6018AAD-BBB0000 6,000 95 78 75 62.5 76 58.4 45 45.7 28.4 0.0 28.4 279.3 9.8 0.12ERVc-6018AAD-BBB0000 6,000 80 73 75 62.5 75 59.1 49 47.6 21.9 0.0 21.9 238.9 10.9 0.28ERVc-6018AAD-BBB0000 6,000 68 66 75 62.5 72 56.6 44 45 21.2 0.0 21.2 187.3 8.8 0.36ERVc-6018AAD-BBB0000 6,000 60 58 75 59.5 69 54.4 39 42 17.7 1.9 19.6 113.9 5.8 0.24
8.8ERVc-7020AAD-BBB0000 7,000 95 78 75 62.5 79 61 51 48.9 25.7 0.0 25.7 299.1 11.6 0.12ERVc-7020AAD-BBB0000 7,000 80 73 75 62.5 79 61 52 49.2 21.2 0.0 21.2 269.5 12.7 0.28ERVc-7020AAD-BBB0000 7,000 68 66 75 62.5 77 59.8 49 47.5 20 0.0 20.0 198.4 9.9 0.36ERVc-7020AAD-BBB0000 7,000 60 58 75 59.5 70 54.4 38 41.3 19.8 0.0 19.8 137.5 6.9 0.24
10.2
Ambient Temp Return Temp Supply Conditions
Munters Calculated ISMRE for units with heat recovery (cont’d)
Munters Model NumberAirflow
rateDB °F WB °F DB °F WB °F DB °F WB °F gr/lb DP °F
Electrical Power Input (kW)
Supplementary heat
penalty (kW)
Total Power Input (kW)
MRClb/h
MRElb/kWh
ISMRE
ERVc-8024AAD-BBB0000 8,000 95 78 75 62.5 79 60.9 50 48.4 33.6 0.0 33.6 346.8 10.3 0.12ERVc-8024AAD-BBB0000 8,000 80 73 75 62.5 79 62 56 51.2 24.4 0.0 24.4 287.5 11.8 0.28ERVc-8024AAD-BBB0000 8,000 68 66 75 62.5 77 60.4 52 49.3 21.4 0.0 21.4 209.6 9.8 0.36ERVc-8024AAD-BBB0000 8,000 60 58 75 59.5 69 54.6 40 42.6 21.3 2.5 23.8 147.1 6.2 0.24
9.5ERVc-1026AAD-BBB0000 10,000 95 78 75 62.5 79 60.3 49 47.4 40.7 0.0 40.7 445.3 10.9 0.12ERVc-1026AAD-BBB0000 10,000 80 73 75 62.5 79 61.5 54 50.2 28.8 0.0 28.8 372.2 12.9 0.28ERVc-1026AAD-BBB0000 10,000 68 66 75 62.5 78 60.7 52 49 24 0.0 24.0 266 11.1 0.36ERVc-1026AAD-BBB0000 10,000 60 58 75 59.5 71 55.4 41 42.9 23.6 0.0 23.6 180.8 7.7 0.24
10.8ERVc-1230AAD-BBB0000 12,000 95 78 75 62.5 79 60.1 48 47.2 49.6 0.0 49.6 538.2 10.9 0.12ERVc-1230AAD-BBB0000 12,000 80 73 75 62.5 77 60.4 52 49.4 39.6 0.0 39.6 451.8 11.4 0.28ERVc-1230AAD-BBB0000 12,000 68 66 75 62.5 77 60.9 54 50 33.4 0.0 33.4 303.8 9.1 0.36ERVc-1230AAD-BBB0000 12,000 60 58 75 59.5 69 55.2 42 43.9 31.1 3.8 34.9 204.1 5.8 0.24
9.2ERVc-1440AAD-BBB0000 14,000 95 78 75 62.5 79 60.6 49 47.7 61.7 0.0 61.7 617.9 10.0 0.12ERVc-1440AAD-BBB0000 14,000 80 73 75 62.5 79 61.1 52 49.3 48.2 0.0 48.2 537 11.1 0.28ERVc-1440AAD-BBB0000 14,000 68 66 75 62.5 78 60.4 51 48.7 37.7 0.0 37.7 377.6 10.0 0.36ERVc-1440AAD-BBB0000 14,000 60 58 75 59.5 70 54.7 40 42.1 37.2 0.0 37.2 264.6 7.1 0.24
9.6ERVc-1648AAD-BBB0000 16,000 95 78 75 62.5 79 60.8 51 48.8 73.6 0.0 73.6 684.9 9.3 0.12ERVc-1648AAD-BBB0000 16,000 80 73 75 62.5 79 61.7 55 50.5 54 0.0 54.0 588.9 10.9 0.28ERVc-1648AAD-BBB0000 16,000 68 66 75 62.5 77 59.9 50 48.2 46.3 0.0 46.3 440.5 9.5 0.36ERVc-1648AAD-BBB0000 16,000 60 58 75 59.5 70 54.1 37 40.4 45.4 0.0 45.4 327.3 7.2 0.24
9.3
Ambient Temp Return Temp Supply Conditions
15
ASHRAE 90.1, AHRI 920 & ISMRE
DOAS equipment has been around for over 20 years and is installed in many buildings covered by ASHRAE 90.1. However, the current standard has no minimum efficiency requirements for this type of equipment. The AHRI Dehumidification committee that wrote the 920 standard proposed to the ASHRAE 90.1 committee that this become a class of equipment covered by 90.1 and proposed minimum efficiency levels to be adopted. The AHRAE 90.1 committee approved the proposal and the public comment period has passed. The minimum ISMRE requirements for DOAS equipment will be added as an addendum to the 2013 version of 90.1 and will be included in the 2016 version to be released later this year.
Comparing the minimum levels required by the standard, most Munters equipment is right around 2X as efficient as the standard requires!!
ASHRAE 90.1 Adoption – Addendum XX
ASHRAE 90.1 Adoption – Addendum XX
Munters ISMRE vs. ASHRAE 90.1 ISMRE Requirements
No CFM ISMRE CFM ISMRE1 2500 9.9 5.2 2000 8.8 4.02 3000 9.5 5.2 3400 8.0 4.03 4000 9.3 5.2 4000 8.0 4.04 5400 10.0 5.2 5000 7.9 4.05 6000 8.8 5.2 6000 8.2 4.06 7000 10.2 5.2 8000 8.1 4.07 8000 9.5 5.2 10000 9.2 4.08 10000 10.8 5.2 12000 8.6 4.09 12000 9.2 5.2 16000 7.9 4.0
10 14000 9.6 5.211 16000 9.3 5.2
Avg. 9.6 5.2 Avg. 8.3 4.0
ERVc HCUcMin ISMRE
Min ISMRE
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•Munters DryCool equipment is the most energy efficient DOAS equipment on the market, whether you are looking for deep drying or room neutral dew point supply air.
Conclusion
