Mechanical air conditioning systems have a significant share of energy consumption in the building sector. Passive solar systems, such as solar chimneys, can reduce building energy demand by supplying space heating, cooling, and ventilation, significantly decreasing greenhouse gas emissions. Therefore, this study aimed to evaluate the heating and ventilation efficiencies of a solar chimney integrated system, including a roof solar chimney coupled with an air channel, for a two-story office building in Tehran, Iran. The studied system's conditions are switchable from heating to cooling by changing the opening positions. Computational Fluid Dynamics was employed to numerically investigate the heating and ventilation efficiencies of the proposed solar system. The results confirmed that the system could be utilized for pre-heating purposes during working hours but that the building should be ventilated only for 35% of this time with an air change rate of 0.8 during the year's coldest month. The arrangement could provide thermal and ventilation comfort for the occupied space only at solar intensity and ambient temperature higher than 550 W/m2 and 10 °C, respectively. In addition, the solar system could reduce 32% of the annual heating demand (918 kWh), which is equal to a reduction of 1865 kg of CO2 emissions during working hours.

1.
O.
Yildiz
,
M.
Yilmaz
, and
A.
Celik
,
Build. Environ.
208
,
108632
(
2022
).
2.
S.
Zhang
,
P.
Ocłoń
,
J. J.
Klemeš
,
P.
Michorczyk
,
K.
Pielichowska
, and
K.
Pielichowski
,
Renewable Sustainable Energy Rev.
165
,
112560
(
2022
).
3.
H. M.
Maghrabie
,
M. A.
Abdelkareem
,
K.
Elsaid
et al,
Sustainable Energy Technol. Assess.
52
,
102082
(
2022
).
4.
S.
Mabdeh
,
T.
Al Radaideh
, and
M.
Hiyari
,
J. Green Build.
16
(
3
),
155
177
(
2021
).
5.
L.
Shi
,
G.
Zhang
,
W.
Yang
,
D.
Huang
,
X.
Cheng
, and
S.
Setunge
,
Renewable Sustainable Energy Rev.
88
,
223
238
(
2018
).
6.
H.
Baş
and
A.
Tokuç
, in
Presented at the Environmentally-Benign Energy Solutions
(
2020
).
7.
L.
Moosavi
,
M.
Zandi
, and
M.
Bidi
,
J. Build. Eng.
19
,
228
241
(
2018
).
8.
E. M.
Mokheimer
,
M. R.
Shakeel
, and
J.
Al-Sadah
,
Energy Build.
153
,
219
230
(
2017
).
9.
N.
Monghasemi
and
A.
Vadiee
,
Renewable Sustainable Energy Rev.
81
,
2714
2730
(
2018
).
10.
M.
Ghalamchi
,
A.
Kasaeian
,
M.
Ghalamchi
, and
A. H.
Mirzahosseini
,
Renewable Energy
91
,
477
483
(
2016
).
11.
M.
Hosien
and
S.
Selim
,
Energy Build.
138
,
355
367
(
2017
).
12.
X.
Zha
,
J.
Zhang
, and
M.
Qin
,
Procedia Eng.
205
,
1612
1619
(
2017
).
13.
A.
Layeni
,
C.
Nwaokocha
,
S.
Giwa
, and
O.
Olamide
,
Covenant J. Eng. Technol.
2
(
1
),
38
58
(
2018
).
14.
L.
Shi
and
G.
Zhang
,
Build. Environ.
103
,
250
261
(
2016
).
15.
S.
Asadi
,
M.
Fakhari
,
R.
Fayaz
, and
A.
Mahdaviparsa
,
Energy Build.
123
,
71
78
(
2016
).
16.
M.
Khosravi
,
F.
Fazelpour
, and
M. A.
Rosen
,
Renewable Energy
143
,
569
585
(
2019
).
17.
Z. D.
Chen
,
P.
Bandopadhayay
,
J.
Halldorsson
,
C.
Byrjalsen
,
P.
Heiselberg
, and
Y.
Li
,
Build. Environ.
38
(
7
),
893
906
(
2003
).
18.
A. A.
Saleem
,
M.
Bady
,
S.
Ookawara
, and
A. K.
Abdel-Rahman
,
Energy Build.
133
,
360
370
(
2016
).
19.
Y.
Lei
,
Y.
Zhang
,
F.
Wang
, and
X.
Wang
,
Appl. Therm. Eng.
107
,
653
661
(
2016
).
20.
T.
Miyazaki
,
A.
Akisawa
, and
T.
Kashiwagi
,
Renewable Energy
31
(
7
),
987
1010
(
2006
).
21.
A.
Haghighi
and
M.
Maerefat
,
Sustainable Cities Soc.
10
,
72
79
(
2014
).
22.
X.
Zhai
,
Y.
Dai
, and
R.
Wang
,
Appl. Therm. Eng.
25
(
5–6
),
741
757
(
2005
).
23.
L.
Zhang
,
Z.
Dong
,
F.
Liu
et al,
J. Energy Eng.
149
(
1
),
04022060
(
2023
).
24.
A. A.
Serageldin
,
A.
Abdeen
,
M. M.
Ahmed
,
A.
Radwan
,
A. N.
Shmroukh
, and
S.
Ookawara
,
Sol. Energy
206
,
145
162
(
2020
).
25.
S.
Lal
,
J. Mech. Constr. Eng.
2
(
2
),
1
15
(
2022
).
26.
I.
Zavala-Guillén
,
J.
Xamán
,
I.
Hernández-Pérez
et al,
Appl. Therm. Eng.
149
,
807
821
(
2019
).
27.
A. A.
Omara
,
H. A.
Mohammed
,
I. J.
Al Rikabi
,
M. A.
Abuelnour
, and
A. A.
Abuelnuor
,
Sol. Energy
228
,
68
88
(
2021
).
28.
K. E.
Amori
and
S. W.
Mohammed
,
Energy Build.
47
,
450
457
(
2012
).
29.
R.
Tariq
,
C.
Torres-Aguilar
,
J.
Xamán
et al,
Build. Environ.
213
,
108807
(
2022
).
30.
C.
Jiménez-Xamán
,
J.
Xamán
,
M.
Gijón-Rivera
,
I.
Zavala-Guillén
,
F.
Noh-Pat
, and
E.
Simá
,
J. Build. Eng.
31
,
101380
(
2020
).
31.
G.
He
,
Q.
Wu
,
Z.
Li
,
W.
Ge
,
D.
Lv
, and
L.
Cong
,
Build. Environ.
193
,
107648
(
2021
).
32.
A.
Salehi
,
R.
Fayaz
,
M.
Bozorgi
et al,
Energy Build.
205
,
109528
(
2019
).
33.
S.
Nateghi
and
M. H.
Jahangir
,
Cleaner Mater.
5
,
100120
(
2022
).
34.
M. H.
Jahangir
and
S. K.
Nateghi
,
Adv. Energy Convers. Mater.
2
,
45
59
(
2021
).
36.
L.
de Oliveira Neves
and
F. M.
da Silva
,
J. Wind Eng. Ind. Aerodyn.
179
,
135
145
(
2018
).
37.
A.
Madhlopa
,
J. Eng., Des. Technol.
14
(
2
),
286
309
(
2016
).
38.
S.
Hong
,
G.
He
,
W.
Ge
,
Q.
Wu
,
D.
Lv
, and
Z.
Li
, in
Presented at the Building Simulation
(
2019
).
39.
Y.
Li
,
T.
Long
,
X.
Bai
et al,
Renewable Energy
175
,
486
500
(
2021
).
40.
Y.
Bai
,
T.
Long
,
W.
Li
et al,
Renewable Energy
193
,
1001
1018
(
2022
).
41.
N.
Sakhri
,
Y.
Menni
,
A. J.
Chamkha
et al,
J. Therm. Anal. Calorim.
145
,
3349
3358
(
2021
).
42.
T.
Long
,
N.
Zhao
,
W.
Li
et al,
Appl. Therm. Eng.
214
,
118851
(
2022
).
43.
F.
Pouranian
,
H.
Akbari
, and
S.
Hosseinalipour
,
Appl. Energy
299
,
117201
(
2021
).
44.
R.
Wang
and
Y.
Wang
,
Sol. Energy
225
,
1026
1047
(
2021
).
45.
R.
Elghamry
and
H.
Hassan
,
Renewable Energy
152
,
1403
1413
(
2020
).
46.
T.
Long
,
N.
Zhao
,
W.
Li
et al,
Energy
250
,
123818
(
2022
).
47.
L.
Moosavi
,
M.
Zandi
,
M.
Bidi
,
E.
Behroozizade
, and
I.
Kazemi
,
Build. Environ.
181
,
106785
(
2020
).
48.
M.
Sadeghi
and
M.
Karimi
,
Int. Arch. Photogramm. Remote Sens. Spat. Inf. Sci.
42
,
469
476
(
2017
).
49.
X.
Zhai
,
Y.
Dai
, and
R.
Wang
,
Energy Build.
37
(
4
),
373
381
(
2005
).
50.
I.
Hernández-López
,
J.
Xamán
,
I.
Zavala-Guillén
,
I.
Hernández-Pérez
,
P.
Moreno-Bernal
, and
Y.
Chávez
,
Renewable Energy
145
,
294
307
(
2020
).
51.
S.
Jain
,
S.
Kumar
,
S.
Kumar
, and
T.
Sharma
,
Tunnelling Underground Space Technol.
23
(
2
),
160
170
(
2008
).
52.
S. S.
Hosseini
,
A.
Ramiar
, and
A. A.
Ranjbar
,
Renewable Energy
117
,
488
500
(
2018
).
53.
Q.
Chen
,
Build. Environ.
44
(
4
),
848
858
(
2009
).
54.
D. K.
Mandal
,
N.
Biswas
,
N. K.
Manna
, and
A. C.
Benim
,
Ain Shams Eng. J.
15
(
2
),
102390
(
2024
).
55.
L.
Moosavi
,
S.
Alidoost
,
F.
Norouzi
,
S.
Sattary
, and
S.
Banihashemi
,
J. Renewable Sustainable Energy
14
(
4
),
045101-16
(
2022
).
You do not currently have access to this content.