This paper studies the real case of naturally ventilated space with a convective/radiative heat source and nonadiabatic envelopes. The real envelopes and heat source are introduced into a simple two-layer model of the displacement of natural ventilation, and then contribute to achieving a newly developed one: the “Thermal and airFlow Natural Ventilation” (TFNV) model. The TFNV model divides a whole space into two vertical zones of different temperatures and defines air temperature in the lower zone higher than in outdoor air. Comparisons of the predictions by the TFNV model and Computational Fluid Dynamics (CFD) simulation show good agreement. It is found that the TFNV model simplifies the multilevel stratifications in such a real case of naturally ventilated space into an ideal two-layer thermal stratification. Through a procedure for the TFNV model, fundamental guidelines for well-designed real naturally ventilated buildings are then discussed in this paper. Two notable points are presented, first, improving natural ventilation by increasing the effective area of openings and second, designing displacement of natural ventilation based on a desired interface height.

1.
Nielson
,
P. V.
, 1995, “
Vertical Temperature Distribution in a Room with Displacement Ventilation
,” IEA Annex 26 Report: Energy-Efficient Ventilation of Large Enclosure, Department of Building Technology and Structure Engineering, Aalborg, University, Denmark, pp.
1
14
.
2.
Sandberg
,
H.
, and
Lindstrom
,
S.
, 1987, “
A Model for Ventilation by Displacement
,”
Proceedings of ROOMVENT’87, 1st International Conference on Air Distribution in Rooms
, Stockholm, Sweden, June 10–12, SCANVAC, Denmark.
3.
Sandberg
,
H.
, and
Lindstrom
,
S.
, 1990, “
Stratified Flow in Ventilated Rooms–A Model Study
,”
Proceedings of ROOMVENT’90, 2nd International Conference on Air Distribution in Rooms
, Oslo, Norway, June 13–15, SCANVAC, Denmark.
4.
Mundt
,
E.
, 1995, “
Displacement Ventilation Systems–Convection Flow and Temperature Gradients
,”
Build. Environ.
0360-1323,
30
(
1
), pp.
129
133
.
5.
Linden
,
P. F.
,
Lane-Serff
,
G. F.
, and
Smeed
,
D. A.
, 1990, “
Emptying Filling Boxes: The Fluid Mechanics of Natural Ventilation
,”
J. Fluid Mech.
0022-1120,
212
, pp.
309
335
.
6.
Cooper
,
P.
, and
Linden
,
P. F.
, 1996, “
Natural Ventilation of an Enclosure Containing Two Buoyancy Sources
,”
J. Fluid Mech.
0022-1120,
311
, pp.
153
176
.
7.
Linden
,
P. F.
, and
Cooper
,
P.
, 1996, “
Multiple Sources of Buoyancy in a Naturally Ventilated Enclosure
,”
J. Fluid Mech.
0022-1120,
311
, pp.
177
192
.
8.
Li
,
Y.
, 2000, “
Buoyancy–Driven Natural Ventilation in a Thermally Stratified One-zone Building
,”
Build. Environ.
0360-1323,
35
(
3
), pp.
207
214
.
9.
Chen
,
Z. D.
, and
Li
,
Y.
, 2002, “
Buoyancy-Driven Displacement Natural Ventilation in a Single-zone Building with Three-level Openings
,”
Build. Environ.
0360-1323,
37
(
3
), pp.
295
303
.
10.
Churchill
,
S. W.
, and
Chu
,
H. S.
, 1975, “
Correlation Equations for Laminar and Turbulent Free Convection from a Vertical Plate
,”
Int. J. Heat Mass Transfer
0017-9310,
18
, pp.
1323
1329
.
11.
Bauman
,
F.
,
Gadgil
,
A.
, and
Kamerud
,
R.
, 1983, “
Convective Heat Transfer in Buildings: Recent Research Results
,”
ASHRAE Trans.
0001-2505,
89
, pp.
215
232
.
12.
Wallenten
,
P.
, 2001, “
Convective Heat Transfer Coefficients in a Full-Scale Room With and Without Furniture
,”
Build. Environ.
0360-1323,
36
(
6
), pp.
743
751
.
13.
Beausoleil-Morrison
,
I.
, 2001, “
An Algorithm for Calculating Convection Coefficients for Internal Building Surfaces for the Case of Mixed Flow in Rooms
,”
Energy Build.
0378-7788,
33
(
4
), pp.
351
361
.
14.
List
,
E. J.
, 1982, “
Turbulent Jets and Plumes
,”
Annu. Rev. Fluid Mech.
0066-4189,
14
, pp.
189
212
.
15.
Xing
,
H.
, and
Awbi
,
H. W.
, 2002, “
Measurement and Calculation of the Neutral Height in a Room with Displacement Ventilation
,”
Build. Environ.
0360-1323,
37
(
10
), pp.
961
967
.
16.
Launder
,
B. E.
, and
Spalding
,
D. B.
, 1974, “
The Numerical Computation of Turbulent Flows
,”
Comput. Methods Appl. Mech. Eng.
0045-7825,
3
, pp.
269
289
.
17.
Chen
,
Z. D.
,
Li
,
Y.
, and
Mahoney
,
J.
, 2000, “
Natural Ventilation in an Enclosure Induced by a Heat Source Distributed over a Vertical Wall
,”
Build. Environ.
0360-1323,
36
(
4
), pp.
493
501
.
18.
Calay
,
R. K.
,
Borresen
,
B. A.
, and
Holdo
,
A. E.
, 2000, “
Selective Ventilation in Large Enclosures
,”
Energy Build.
0378-7788,
32
(
3
), pp.
281
289
.
19.
Chen
,
H. C.
, and
Patel
,
V. C.
, 1988, “
Near-wall Turbulence Models for Complex Flows Including Separation
,”
AIAA J.
0001-1452,
26
, pp.
641
648
.
You do not currently have access to this content.