Environmental Technology – Thermal Envelope
I would like to know if you are able to make a – Thermal Envelope – PASSIVE DESIGN , all documentation is provided i just need analysis of these documentation and comparison between the information. can you do it?
there are 3 files each file has data the requirements basically state that to make 2 charts the first one is to compare between the minimal Dallas and the optimal Dallas the second is to compare between the optimal Dallas and the optimal Cleveland
Part 2/Dallas Minimal /BEPS.pdf
D a
lla s
Fo rt
W o
rt h
I n
tl A
C it
y Lo
ca ti
o n
: S
IN G
LE F
A M
IL Y
R E
S ID
E N
C E
B u
ild in
g T
yp e
: H
o m
e fo
r M
s/ M
r R
a te
p ay
er P
ro je
ct :
S ch
e m
e 9
: S
ys yt
e m
B E
P S
: B u
ild in
g E
n er
g y
P er
fo rm
a n
ce S
ta n
d a
rd s
N et
C ar
bo n
D io
xi de
P ro
du ce
d So
ur ce
( po
un ds
): Z
N C
Ze ro
N et
C ar
bo n
R at
in g
9% o
f S ch
em e
1 1,
93 0.
35 EU
I N
et S
ou rc
e EN
ER G
Y U
SE I N
TE N
SI TY
(k BT
U /s
q ft
y ea
r) Z
N E
Ze ro
N et
E ne
rg y
R at
in g
18 %
o f S
ch em
e 1
11 .0
8 N
et C
ar bo
n D
io xi
de P
ro du
ce d
Si te
( po
un ds
): Z
SN C
Ze ro
N et
S ite
C ar
bo n
R at
in g
29 %
o f S
ch em
e 1
2, 98
5. 76
EU I N
et S
ite E
N ER
G Y
U SE
I N
TE N
SI TY
( kB
TU /s
q ft
y ea
r) Z
N SE
Z er
o N
et S
ite E
ne rg
y R at
in g
40 %
o f S
ch em
e 1
13 .7
9 Co
st o
f F ue
l P ur
ch as
ed N
et (
D ol
la rs
p er
y ea
r) (
ne ga
tiv e
va lu
es a
re I
nc om
e no
t Co
st )
40 0.
45 Co
st S
av in
gs o
f A vo
id ed
F ue
l b y
So la
r H
ot W
at er
G en
er at
ed o
n Si
te (
D ol
la rs
p er
y ea
r) 10
2. 28
Co st
o f F
ue l C
on su
m ed
( D
ol la
rs p
er y
ea r)
50 2.
73 To
ta l F
ue l P
ur ch
as ed
N et
( th
er m
s of
g as
o r ga
llo ns
o f p
ro pa
ne o
r oi
l) (n
eg at
iv e
va lu
es a
re I
nc om
e no
t C os
t) 30
2. 88
To ta
l F ue
l S av
in gs
S ol
ar H
ot W
at er
G en
er at
ed o
n Si
te (
th er
m s
of g
as o
r ga
llo ns
o f p
ro pa
ne o
r oi
l) 77
.3 6
To ta
l F ue
l C on
su m
ed A
nn ua
lly G
ro ss
( th
er m
s of
g as
o r
ga llo
ns o
f p ro
pa ne
o r
oi l)
38 0.
25 Co
st o
f E le
ct ric
ity P
ur ch
as ed
N et
( D
ol la
rs p
er y
ea r)
( ne
ga tiv
e va
lu es
a re
I nc
om e
no t C
os t)
-1 88
.0 2
Co st
S av
in gs
o f PV
G en
er at
ed o
n Si
te (
D ol
la rs
p er
y ea
r) .
2, 29
3. 13
Co st
o f E
le ct
ric ity
C on
su m
ed (
D ol
la rs
p er
y ea
r) 2,
10 5.
11 To
ta l E
le ct
ric ity
P ur
ch as
ed N
et ( kW
h) (
ne ga
tiv e
va lu
es a
re I
nc om
e, n
ot C
os t)
-7 93
.2 3
To ta
l E le
ct ric
ity S
av in
gs o
f P V
G en
er at
ed o
n Si
te (
kW h)
( So
la r Ph
ot oV
ol ta
ic s)
9, 67
4. 33
To ta
l E le
ct ric
ity C
on su
m ed
A nn
ua lly
G ro
ss ( kW
h) 8,
88 1.
11 El
ec tr
ic H
ea t o
r H ea
t P um
p H
ea tin
g El
ec tr
ic ity
C on
su m
ed A
nn ua
lly ( kW
h) 0.
00 Li
gh tin
g El
ec tr
ic ity
C on
su m
ed A
nn ua
lly (k
W h)
82 6.
31 Fa
ns a
nd B
lo w
er s
El ec
tr ic
ity C
on su
m ed
A nn
ua lly
( kW
h) 3,
17 8.
72 Ai
r Co
nd iti
on er
o r H
ea t P
um p
Co ol
in g
El ec
tr ic
ity C
on su
m ed
A nn
ua lly
( kW
h) 3,
59 8.
94 W
at er
H ea
te r
Fu el
C on
su m
ed A
nn ua
lly (
Fu el
o r El
ec tr
ic ity
in T
he rm
s Eq
ui va
le nt
) 13
6. 77
Ap pl
ia nc
e an
d Eq
ui pm
en t E
le ct
ric ity
C on
su m
ed A
nn ua
lly ( kW
h) 1,
27 7.
13 Ap
pl ia
nc e
an d
Eq ui
pm en
t Fu
el C
on su
m ed
A nn
ua lly
( th
er m
s of
g as
o r
G al
lo ns
o f p
ro pa
ne o
r oi
l) 66
.3 9
H ea
tin g
Fu el
C on
su m
ed A
nn ua
lly (
th er
m s
of g
as o
r G
al lo
ns o
f p ro
pa ne
o r oi
l) 17
7. 09
Co ol
in g
H VA
C Sy
st em
O ut
pu t N
or m
al iz
ed ( kB
TU /s
q ft
y ea
r) 23
.3 9
H ea
tin g
H VA
C Sy
st em
O ut
pu t N
or m
al iz
ed ( kB
TU /s
q ft
y ea
r) 6.
91 N
or m
al iz
ed H
ea t L
os s
(B TU
h/ sq
ft o
f f lo
or )
16 .0
6 Av
er ag
e Ba
la nc
e Po
in t T
em pe
ra tu
re °
F (d
ur in
g th
e co
ld es
t m on
th )
48 .1
4 H
ea t L
os s
in B
TU h
(w ith
0 .8
1 Ai
r C ha
ng es
in fil
tr at
io n)
32 ,1
13 .4
5 Fl
oo r
Ar ea
T ot
al S
q Ft
2, 00
0. 00
H E
E D
4 .0
( B
u ild
4 2
, F
e b
1 4
, 2
0 1
6 )
Part 2/Dallas Minimal /HVAC.pdf
D a
lla s
Fo rt
W o
rt h
I n
tl A
C it
y Lo
ca ti
o n
: S
IN G
LE F
A M
IL Y
R E
S ID
E N
C E
B u
ild in
g T
yp e
: H
o m
e fo
r M
s/ M
r R
a te
p ay
er P
ro je
ct :
S ch
e m
e 9
: S
ys yt
e m
H V
A C
S ys
te m
S iz
in g
* Cl
ic k
on H
el p
ic on
to s
ee t ec
hn ic
al n
ot es
e xp
la in
in g
th es
e ca
lc ul
at io
ns
sq
f t
U fa
ct or
D iff
er en
ce
Ar ea
Av er
ag e
Te m
pe ra
tu re
BT U
h
W IN
D O
W S
an d
D O
O R S
So
ut h
24 .0
0 0.
32 0
57 .0
6 -4
38
W
es t
16 0.
11 0.
34 2
57 .0
6 -3
,1 29
N or
th 24
.0 0
0. 32
0 57
.0 6
-4 38
E as
t 21
2. 01
0. 33
7 57
.0 6
-4 ,0
77
S ky
lig ht
0. 00
0. 00
0 57
.0 6
-0
W AL
LS
So
ut h
40 8.
00 0.
04 7
57 .0
6 -1
,0 94
W
es t
63 1.
89 0.
04 7
57 .0
6 -1
,6 95
N or
th 40
8. 00
0. 04
7 57
.0 6
-1 ,0
94
E as
t 57
9. 99
0. 04
7 57
.0 6
-1 ,5
55
R O
O F
10 00
.0 0
0. 02
3 57
.0 6
-1 ,3
29
FL O
O R R
ai se
d 0.
00 0.
00 0
57 .0
6 -0
SL AB
Ed
ge F
t =
13 6.
00 0.
73 0
57 .0
6 -5
,6 65
IN FI
LT R AT
IO N
Ai
r Ch
an ge
s (a
t 15
m ph
w in
d) =
0
.7 0*
0
.0 18
** 57
.0 6
-1 1,
59 9
D e
si g
n H
ea t
Lo ss
( M
an u
al J
C a
lc u
la ti
o n
)
H E
A T
IN G
S Y
S T
E M
S IZ
E :
-3 2
,1 1
3 D
e si
g n
H ea
t G
a in
( S
im u
la te
d )*
* *
C
O O
LI N
G S
Y S
T E
M S
IZ E
: 3
8 ,9
9 9
H E
E D
4 .0
( B
u ild
4 2
, F
e b
1 4
, 2
0 1
6 )
Part 2/Dallas Minimal /Enegry Costs.pdf
D a
lla s
Fo rt
W o
rt h
I n
tl A
C it
y Lo
ca ti
o n
: S
IN G
LE F
A M
IL Y
R E
S ID
E N
C E
B u
ild in
g T
yp e
: H
o m
e fo
r M
s/ M
r R
a te
p ay
er P
ro je
ct :
S ch
e m
e 9
: S
ys yt
e m
E n
er g
y C
o st
s
2,000 1,000 0
2,000 1,000 0
2,000 1,000 0
($ )
($ )
($ )
FU EL
EL EC
TR IC
IT Y
TO TA
L
A ir
C o
n d
it io
n er
Fa n
s an
d B
lo w
er s
kW h
Li g
h ts
E q
u ip
m en
t an
d A
p p
li an
ce s
E le
ct ri
c H
ea t
o r
H ea
t P
u m
p
Fu rn
ac e
Fu el
A p
p li
an ce
F u
el
W at
er H
ea te
r
P V
G en
er at
ed O
n S
it e
S o
la r
H o
t W
at er
G en
er at
ed O
n S
it e
1 . M
ee ts
E n
er g
y C
o d
e 2
. M o
re E
n er
g y
E ff
ic ie
n t
3 . O
ri en
ta ti
o n
4 . C
o o
li n
g 5
. R en
ew ab
le E
n er
g y
6 . I
n su
la ti
o n
7 . G
la ss
& S
h ad
in g
8 . A
ir T
ig h
tn es
s 9
. S ys
yt em
D ol
la rs
E ne
rg y
Co st
H E
E D
4 .0
( B
u ild
4 2
, F
e b
1 4
, 2
0 1
6 )
Part 2/Dallas Minimal /Home Enegry Rating.pdf
Part 2/Dallas Optimal /Evaluate/HAVC System Sizing.JPG
Part 2/Dallas Minimal /Energy Efficient Design.pdf
D a
lla s
Fo rt
W o
rt h
I n
tl A
C it
y Lo
ca ti
o n
: S
IN G
LE F
A M
IL Y
R E
S ID
E N
C E
B u
ild in
g T
yp e
: H
o m
e fo
r M
s/ M
r R
a te
p ay
er P
ro je
ct :
S ch
e m
e 9
: S
ys yt
e m
E n
e rg
y E
ff ic
ie n
t D
e si
g n
10,000 7,500 5,000 2,500 0
U n
co m
fo rt
a b
le T
em p
e ra
tu re
is H
o u
rs w
h e
n I
n d
o or
C o
m fo
rt is
u se
d f
o r
In d
o or
H o
u rs
w h
e n
H EA
TI N
G
C o
m fo
rt is
u se
d f
o r
In d
o or
H o
u rs
w h
e n
C O
O LI
N G
fo r
In d
o o
r C
om fo
rt o
r C
O O
LI N
G is
n e
e d
e d
H o
u rs
. N
o H
EA TI
N G
o r
P a
ss iv
e P
er fo
rm an
ce
1 . M
ee ts
E n
er g
y C
o d
e
U n
co m
fo rt
a b
le T
em p
e ra
tu re
is H
o u
rs w
h e
n I
n d
o or
C o
m fo
rt is
u se
d f
o r
In d
o or
H o
u rs
w h
e n
H EA
TI N
G
C o
m fo
rt is
u se
d f
o r
In d
o or
H o
u rs
w h
e n
C O
O LI
N G
fo r
In d
o o
r C
om fo
rt o
r C
O O
LI N
G is
n e
e d
e d
H o
u rs
. N
o H
EA TI
N G
o r
P a
ss iv
e P
er fo
rm an
ce
2 . M
o re
E n
er g
y E
ff ic
ie n
t
U n
co m
fo rt
a b
le T
em p
e ra
tu re
is H
o u
rs w
h e
n I
n d
o or
C o
m fo
rt is
u se
d f
o r
In d
o or
H o
u rs
w h
e n
H EA
TI N
G
C o
m fo
rt is
u se
d f
o r
In d
o or
H o
u rs
w h
e n
C O
O LI
N G
fo r
In d
o o
r C
om fo
rt o
r C
O O
LI N
G is
n e
e d
e d
H o
u rs
. N
o H
EA TI
N G
o r
P a
ss iv
e P
er fo
rm an
ce
3 . O
ri en
ta ti
o n
U n
co m
fo rt
a b
le T
em p
e ra
tu re
is H
o u
rs w
h e
n I
n d
o or
C o
m fo
rt is
u se
d f
o r
In d
o or
H o
u rs
w h
e n
H EA
TI N
G
C o
m fo
rt is
u se
d f
o r
In d
o or
H o
u rs
w h
e n
C O
O LI
N G
fo r
In d
o o
r C
om fo
rt o
r C
O O
LI N
G is
n e
e d
e d
H o
u rs
. N
o H
EA TI
N G
o r
P a
ss iv
e P
er fo
rm an
ce
4 . C
o o
li n
g
U n
co m
fo rt
a b
le T
em p
e ra
tu re
is H
o u
rs w
h e
n I
n d
o or
C o
m fo
rt is
u se
d f
o r
In d
o or
H o
u rs
w h
e n
H EA
TI N
G
C o
m fo
rt is
u se
d f
o r
In d
o or
H o
u rs
w h
e n
C O
O LI
N G
fo r
In d
o o
r C
om fo
rt o
r C
O O
LI N
G is
n e
e d
e d
H o
u rs
. N
o H
EA TI
N G
o r
P a
ss iv
e P
er fo
rm an
ce
5 . R
en ew
ab le
E n
er g
y U n
co m
fo rt
a b
le T
em p
e ra
tu re
is H
o u
rs w
h e
n I
n d
o or
C o
m fo
rt is
u se
d f
o r
In d
o or
H o
u rs
w h
e n
H EA
TI N
G
C o
m fo
rt is
u se
d f
o r
In d
o or
H o
u rs
w h
e n
C O
O LI
N G
fo r
In d
o o
r C
om fo
rt o
r C
O O
LI N
G is
n e
e d
e d
H o
u rs
. N
o H
EA TI
N G
o r
P a
ss iv
e P
er fo
rm an
ce
6 . I
n su
la ti
o n
U n
co m
fo rt
a b
le T
em p
e ra
tu re
is H
o u
rs w
h e
n I
n d
o or
C o
m fo
rt is
u se
d f
o r
In d
o or
H o
u rs
w h
e n
H EA
TI N
G
C o
m fo
rt is
u se
d f
o r
In d
o or
H o
u rs
w h
e n
C O
O LI
N G
fo r
In d
o o
r C
om fo
rt o
r C
O O
LI N
G is
n e
e d
e d
H o
u rs
. N
o H
EA TI
N G
o r
P a
ss iv
e P
er fo
rm an
ce
7 . G
la ss
& S
h ad
in g
U n
co m
fo rt
a b
le T
em p
e ra
tu re
is H
o u
rs w
h e
n I
n d
o or
C o
m fo
rt is
u se
d f
o r
In d
o or
H o
u rs
w h
e n
H EA
TI N
G
C o
m fo
rt is
u se
d f
o r
In d
o or
H o
u rs
w h
e n
C O
O LI
N G
fo r
In d
o o
r C
om fo
rt o
r C
O O
LI N
G is
n e
e d
e d
H o
u rs
. N
o H
EA TI
N G
o r
P a
ss iv
e P
er fo
rm an
ce
8 . A
ir T
ig h
tn es
s
U n
co m
fo rt
a b
le T
em p
e ra
tu re
is H
o u
rs w
h e
n I
n d
o or
C o
m fo
rt is
u se
d f
o r
In d
o or
H o
u rs
w h
e n
H EA
TI N
G
C o
m fo
rt is
u se
d f
o r
In d
o or
H o
u rs
w h
e n
C O
O LI
N G
fo r
In d
o o
r C
om fo
rt o
r C
O O
LI N
G is
n e
e d
e d
H o
u rs
. N
o H
EA TI
N G
o r
P a
ss iv
e P
er fo
rm an
ce
9 . S
ys yt
em
H o
u rs
D u
ri n
g t
h e
Y ea
r H
o u
rs D
u ri
n g
t h
e Y
ea r
H o
u rs
D u
ri n
g t
h e
Y ea
r H
o u
rs D
u ri
n g
t h
e Y
ea r
E n
e rg
y E
ff ic
ie n
t D
es ig
n S
tr a
te g
ie s:
(f o
r m
o re
s p
ec if
ic g
u id
el in
es u
se C
li m
at e
C o
n su
lt an
t)
1 .
C o
m p
ac t
b u
ild in
g f
o rm
, sq
u a
ri sh
f lo
o rp
la n
, m
u lt
ip le
s to
ri es
, p
it ch
e d
r oo
f (t
o e
lim in
a te
u n
n e
ce ss
ar y
w a
ll ar
ea a
n d
u n
u se
d fl
oo r
sp a
ce t
o h
e at
a n
d c
oo l)
. 2
. R
ai se
d f
lo o
r w
el l i
n su
la te
d ,
b u
t in
te ri
o r
m a
ss (
lik e
t ile
fl oo
rs , s
to n
e f
ir ep
la ce
) w
ill h
e lp
r e
d u
ce d
a y-
to -n
ig h
t te
m p
e ra
tu re
s w
in g
s a
n d
h o
ld in
w in
te r
so la
r g
ai n
. 3
. M
ov e
a s
m u
ch g
la ss
a s
p os
si b
le t
o S
ou th
a n
d S
ou th
E as
t, (
fo r
p a
ss iv
e s
ol a
r g
ai n
) sh
a d
e d
in s
u m
m e
r to
p re
ve n
t o
ve rh
e at
in g
. 4
. H
ig h
p e
rf or
m a
n ce
g la
zi n
g w
ill m
ax im
iz e
w in
te r
g a
in s,
r ed
u ce
n ig
h t
ti m
e lo
ss e
s a
n d
s u
m m
e r
g a
in s
(u se
g oo
d L
o w
-E g
la ss
). 5
. T
ig h
tl y
se al
b u
ild in
g a
n d
u se
v es
ti b
u le
e n
tr ie
s (t
w o
d oo
rs )
to m
in im
iz e
in fi
lt ra
ti o
n a
n d
e lim
in a
te d
ra ft
s, e
sp ec
ia lly
in w
in d
y si
te s
(h o
u se
w ra
p ,
w e
a th
e r
st ri
p p
in g
, g
o od
q u
a lit
y w
in d
o w
s) .
6 .
In su
la ti
n g
b lin
d s
or h
ea vy
d ra
p er
ie s
w ill
h el
p r
ed u
ce n
ig h
t ti
m e
h e
at lo
ss es
7 .
G oo
d in
su la
ti on
w ill
h e
lp r
e ta
in in
te rn
al g
ai n
s fr
o m
li g
h ts
a n
d e
q u
ip m
en t.
8 .
A ir
c o
n d
it io
n in
g s
h o
u ld
n ot
b e
n e
ed e
d if
g o
od e
n er
g y
ef fi
ci e
n t
b u
ild in
g d
es ig
n (
a la
rg e
w h
ol e
-h ou
se f
a n
s h
o u
ld p
ro vi
d e
e n
o u
g h
e co
n om
iz e
r co
o lin
g if
t h
e re
is a
d eq
u at
e in
te ri
o r
m a
ss ).
9 .
Lo ca
te s
to ra
g e
a re
as a
n d
a tt
a ch
e d
g a
ra g
es o
n w
in d
w a
rd o
r w
es te
rl y
si d
e t
o h
el p
in su
la te
. 1
0 .
H ig
h e
ff ic
ie n
cy f
u rn
a ce
s sh
o u
ld b
e co
st e
ff e
ct iv
e .
H E
E D
4 .0
( B
u ild
4 2
, F
e b
1 4
, 2
0 1
6 )
Part 2/Dallas Optimal /Basic/Home Energy Rating.JPG
Part 2/Dallas Optimal /Evaluate/Bar Chart, Hourly.JPG
Part 2/Dallas Optimal /Basic/Energy Efficient Design.JPG
Part 2/Cleveland Optimal /energy cost cleveland.JPG
Part 2/Dallas Optimal /Basic/Energy Costs.JPG
Part 2/Dallas Optimal /Evaluate/BEPS.JPG
Part 2/Cleveland Optimal /home energy rating cleveland.JPG
Part 2/Cleveland Optimal /energy efficient design cleveland.JPG
Part 2/Cleveland Optimal /BEPS.JPG
Part 2/Cleveland Optimal /HVAC.JPG
Looking for a Similar Assignment? Order now and Get 10% Discount! Use Coupon Code “Newclient”
Environmental Technology – Thermal Envelope was first posted on September 2, 2019 at 8:20 pm.
©2019 "Academicheroes.com". Use of this feed is for personal non-commercial use only. If you are not reading this article in your feed reader, then the site is guilty of copyright infringement. Please contact me at Academicheroes.com
Looking for a Similar Assignment? Order now and Get 10% Discount! Use Coupon Code "Newclient"
