The laboratory air handling unit (LAHU) system for laboratory buildings has been developed and optimized. Theoretical study has concluded that the LAHU with optimal outside air control and optimal heat recovery control significantly reduces thermal energy use, saves pump power consumption and improves office indoor air quality. This paper presents validation experiments of the LAHU energy performance for the winter operation in a large university research building including detailed experimental methodology, procedures and experimental energy savings results. The experiments establish that the LAHU can reduce annual heating energy consumption by over 30% and can reduce heat recovery pump power by over 50%peryear for this typical laboratory building. The experimental validation of the LAHU for the summer operation will be reported in a followup paper.

1.
Sauer
,
H. J.
, and
Howell
,
R. H.
, 1981, “
Promise and Potential of Air-to-Air Recovery Systems
,”
ASHRAE Trans.
0001-2505,
87
(
1
), pp.
167
182
.
2.
Barker
,
P. L.
, 1994, “
Biomedical Laboratory Uses VAV Fume Hoods and Heat Recovery to Save Fuel Costs
,”
ASHRAE J.
0001-2491,
36
(
3
), pp.
41
43
.
3.
Bard
,
E. M.
, 1994, “
Energy Efficient HVAC System Features Thermal Storage and Heat Recovery
,”
ASHRAE J.
0001-2491,
36
(
4
), pp.
38
40
.
4.
Lacey
,
D. R.
, and
Smith
,
D. C.
, 1997, “
Innovative Ventilation System for Animal Anatomy Laboratory
,”
ASHRAE J.
0001-2491,
39
(
4
), pp.
65
67
.
5.
Moyer
,
R. C.
, 1978, “
Energy Recovery Performance in the Research Laboratory
,”
ASHRAE Trans.
0001-2505,
84
(
1
), pp.
538
546
.
6.
Hill
,
J. M.
, and
Jeter
,
S. M.
, 1994, “
The Use of Heat Pipe Heat Exchangers for Enhanced Dehumidification
,”
ASHRAE Trans.
0001-2505,
100
(
1
), pp.
91
102
.
7.
Neuman
,
V. A.
, and
Rousseau
,
W. H.
, 1986, “
VAV for Laboratory Hoods—Design and Costs
,”
ASHRAE Trans.
0001-2505,
92
(
1A
), pp.
330
346
.
8.
Davis
,
S. J.
, and
Benjamin
,
R.
, 1987, “
VAV With Fume Hood Exhaust System
,”
Heat./Piping/Air Cond.
0017-940X,
59
(
8
), pp.
75
78
.
9.
Bard
,
E. M.
, 1995, “
Laboratory Integrates VAV Fume Hood Controls With Central Building Automation System
,”
ASHRAE J.
0001-2491,
37
(
3
), pp.
40
42
.
10.
Charneux
,
R.
, 2001, “
Innovative Laboratory System
,”
ASHRAE J.
0001-2491,
43
(
6
), pp.
48
50
.
11.
Cui
,
Y.
, and
Liu
,
M.
, 2005, “
Improving Laboratory Building Energy Performance and Indoor Air Quality Using a Laboratory Air Handling Unit System (LAHU)
,”
ASHRAE Trans.
0001-2505,
111
(
1
), pp.
113
122
.
12.
Cui
,
Y.
,
Liu
,
M.
, and
Conger
,
K.
, 2004, “
Optimal Airflow Control of Laboratory Air Handling Unit (LAHU) Systems
,”
J. Sol. Energy Eng.
0199-6231,
126
(
2
), pp.
750
758
.
13.
Cui
,
Y.
, and
Liu
,
M.
, 2006, “
LAHU Heat Recovery System Optional Operation and Control Schedules
,”
J. Sol. Energy Eng.
0199-6231,
128
(
3
), pp.
360
366
.
14.
Degelman
,
L.
, 1986,
Bin Data Weather
,
American Society of Heating, Refrigerating and Air-Conditioning Engineers, Inc.
,
Atlanta, GA
.
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