BIM portfolio by Paola Mendoza

1219 BROADWAY BUILDING INFORMATION MODELING ARCH 4354 | PAOLA MENDOZA

^ŝƚĞ ůŽĐĂƟŽŶ ϭϮϭϵ ƌŽĂĚǁĂǇ͕ >ƵďďŽĐŬ͕ dĞǆĂƐ >ĂŶĚƐĐĂƉĞ ZĞƋƵŝƌĞŵĞŶƚƐ EŽ ůĞƐƐ ƚŚĂŶ ϵϬй ŽĨ ƚŚĞ ƌĞƋƵŝƌĞĚ ĨƌŽŶƚ ǇĂƌĚ ĞǆĐůƵĚŝŶŐ ƉĂǀĞĚ ĐƵƌď͕ ƌĞƚƵƌŶƐ ŽĨ ĚƌŝǀĞǁĂǇƐ ƵƉ ƚŽ Ă ŵŝŶŝŵƵŵ ŽĨ ϭϬй ŽĨ ƚŚĞ ƚŽƚĂů ĚĞǀĞůŽƉŵĞŶƚ ůŽƚ ĂƌĞĂ ƐŚĂůů ďĞ ůĂŶĚƐĐĂƉĞĚ ĂŶĚ ƉĞƌŵĂŶĞŶƚůǇ ŵĂŝŶƚĂŝŶĞĚ͘ ƵŝůĚŝŶŐƐ ǁŝƚŚ ǌĞƌŽ ĨƌŽŶƚ ĂŶĚ ƐŝĚĞ ƐĞƚďĂĐŬ ƐŚĂůů ŶŽƚ ďĞ ƌĞƋƵŝƌĞĚ ƚŽ ŚĂǀĞ ĂŶǇ ŽŶͲƐŝƚĞ ůĂŶĚƐĐĂƉŝŶŐ ĞǆĐĞƉƚ ƚŚĂƚ ǁŚĞŶ Ă ƐƚƌƵĐƚƵƌĞ ǁŝƚŚ ǌĞƌŽ ƐĞƚďĂĐŬ ŚĂƐ ĂĚũĂĐĞŶƚ ƉĂƌŬŝŶŐ͕ ϭϬй ŽĨ ƚŚĂƚ ƉĂƌŬŝŶŐ ŵƵƐƚ ďĞ ůĂŶĚƐĐĂƉĞĚ͘ ůů ƌĞƋƵŝƌĞĚ ůĂŶĚƐĐĂƉŝŶŐ ŵƵƐƚ ďĞ ǀŝƐŝďůĞ ĨƌŽŵ ƚŚĞ ƉƵďůŝĐ ƌŝŐŚƚ ŽĨ ǁĂǇ ĂŶĚ ƉůĂĐĞĚ ĨŽƌ ŵĂǆŝŵƵŵ ĞŶŚĂŶĐĞŵĞŶƚ ŽĨ ƚŚĞ ƉƌŽƉĞƌƚǇ ĂŶĚ ƚŚĞ ƌŽĂĚǁĂǇ ŽƌƌŝĚŽƌ͘ ŶǇ ůĂŶĚƐĐĂƉŝŶŐ ƉůĂĐĞĚ ǁŝƚŚŝŶ ƚŚĞ ǀŝƐŝďŝůŝƚǇ ƚƌŝĂŶŐůĞ ŽĨ Ă ĐŽŶĞƌ ůŽƚ ƐŚĂůů ďĞ ŝŶ ĐŽŵƉůŝĂŶĐĞ ǁŝƚŚ ƚŚĞ ǀŝƐŝŽŶ ĐůĞĂƌĂŶĐĞ ƐƚĂŶĚĂƌĚƐ ŽĨ ƚŚŝƐ ƐĞĐƟŽŶ͘

^/d W> E

^Ğƚ ĂĐŬƐ ^ŝŐŶ ƐĞƚďĂĐŬ ʹ ƚŚĞ ŚŽƌŝǌŽŶƚĂů ĚŝƐƚĂŶĐĞ ďĞƚǁĞĞŶ ƚŚĞ ƐŝŐŶ ĂŶĚ ƚŚĞ ĂŶĚ ƚŚĞ ĨƌŽŶƚ ůŽƚ ůŝŶĞ͕ ŝŶĐůƵĚŝŶŐ ŝƚƐ ĞǆƚƌĞŵŝƟĞƐ ĂŶĚ ƐƵƉƉŽƌƚƐ͘ WĂƌŬŝŶŐ ZĞƋƵŝƌĞŵĞŶƚƐ͗ ͻ KīͲƐƚƌĞĞƚ ƉĂƌŬŝŶŐ ƐƉĂĐĞ Ͳ ĂƌĞĂ ĨŽƌ ƚĞŵƉŽƌĂƌǇ ƐƚŽƌĂŐĞ ŽĨ ǀĞŚŝĐůĞƐ ǁŚŝĐŚ ƐŚŽƵůĚ ŶŽƚ ďĞ ǁŝƚŚŝŶ Žƌ ŽŶ ĂŶǇ ƉƵďůŝĐ ƐƚƌĞĞƚ͕ ĂůůĞǇ Žƌ ƌŝŐŚƚͲŽĨͲǁĂǇ͘ ͻ WĂƌŬŝŶŐ ĂƌĞĂ͕ ƉƵďůŝĐ Žƌ ĐŽƐƚƵŵĞƌ ʹ KƉĞŶ ĂƌĞĂ ĨŽƌ ǀĞŚŝĐůĞƐ͕ ĞǆĐůƵĚŝŶŐ ƉƌŝǀĂƚĞ ĂƌĞĂ͕ ƐƚƌĞĞƚƐ Žƌ ĂůůĞǇƐ͕ ĂǀĂŝůĂďůĞ ĨŽƌ ƉƵďůŝĐ ƵƐĞ ĂŶĚͬŽƌ ƋƵĂƐŝͲƉƵďůŝĐ ƵƐĞ͘ ͻ WĂƌŬŝŶŐ ƐƉĂĐĞ͕ ĂƵƚŽŵŽďŝůĞ ʹ ƐƉĂĐĞ ŝŶ Ă ďƵŝůĚŝŶŐ Žƌ ƉƵďůŝĐͬƉƌŝǀĂƚĞ ƐƉĂĐĞ ĨŽƌ ƉĂƌŬŝŶŐ ŽĨ ŽŶĞ ǀĞŚŝĐůĞ͘ ͻ WĂƌŬǁĂǇ ʹ ĂŶǇ ƉĂƌƚ ŽĨ ƉƵďůŝĐ ƌŝŐŚƚͲŽĨͲǁĂǇ ůǇŝŶŐ ďĞƚǁĞĞŶ ƚŚĞ ĐƵƌď Žƌ ŐƌĂĚĞ ůŝŶĞ ŽĨ Ă ƉƵďůŝĐ ƐƚƌĞĞƚ ĂŶĚ ƉƌŝǀĂƚĞ ƉƌŽƉĞƌƚǇ ůŝŶĞ ŶĞǆƚ ƚŽ ŝƚ͘

1 tŽƌŬĨŽƌĐĞ ^ŽůƵƟŽŶƐ 2 DĞƚƌŽ dŽǁĞƌ 3 >Ăǁ Įƌŵ 1

ZK t z

2 s Eh >

ƐŝƚĞ lobby ŽĸĐĞ ƐƉĂĐĞ ŽĸĐĞ ůŝǀĞͬǁŽƌŬ

mail room ůŽĂĚŝŶŐ ĚŽĐŬ ƌĞƐƚĂƵƌĂŶƚ ďƵŝůĚŝŶŐƐ ƐƚƌĞĞƚ

ϬϭD ^^ DK >

,ĞŝŐŚƚ ZĞƐƚƌŝĐƟŽŶƐ ͻ ,ĞŝŐŚƚ Žƌ ƉŽƌƟŽŶ ŽĨ Ă ďƵŝůĚŝŶŐ ƐŚŽƵůĚ ďĞ ŵĞĂƐƵƌĞĚ ĨƌŽŵ ƚŚĞ ĂǀĞƌĂŐĞ ĞƐƚĂďůŝƐŚĞĚ ŐƌĂĚĞ Ăƚ ƚŚĞ ƐƚƌĞĞƚ ůŽƚ ůŝŶĞ Žƌ͕ ĨƌŽŵ ƚŚĞ ĂǀĞƌĂŐĞ ŶĂƚƵƌĂů ŐƌŽƵŶĚ ůĞǀĞů͕ ŝĨ ŚŝŐŚĞƌ͘ ͻ /Ĩ ŶŽ ƐƚƌĞĞƚ ŐƌĂĚĞ ŚĂƐ ďĞĞŶ ĞƐƚĂďůŝƐŚĞĚ͕ ŵĞĂƐƵƌĞ ĨƌŽŵ ƚŚĞ ŚŝŐŚĞƐƚ ƉŽŝŶƚ ŽĨ ƚŚĞ ƌŽŽĨƐ ƐƵƌĨĂĐĞ ŝĨ ŇĂƚ ƚŽ ƚŚĞ ĚĞĐŬ ůŝŶĞ ŽĨ ŵĂŶƐĂƌĚ ƌŽŽĨƐ͘ ͻ dŚĞ ĨŽůůŽǁŝŶŐ ƐƚƌƵĐƚƵƌĞƐ ƐŚŽƵůĚ ďĞ ĞǆĐůƵĚĞĚ͗ ĐŚŝŵŶĞǇƐ͕ ĐŽŽůŝŶŐ ƚŽǁĞƌƐ͕ ƌĂĚŝŽ ƚŽǁĞƌƐ͕ ŽƌŶĂŵĞŶƚĂů ĐƵƉŽůĂƐ͕ Žƌ ƐƉŝƌĞƐ͕ ĞůĞǀĂƚŽƌ ďƵůŬ ŚĞĂĚƐ͕ ƚĂŶŬƐ͕ ǁĂƚĞƌ ƚŽǁĞƌƐ͕ ĂŶĚ ƉĂƌĂƉĞƚ ǁĂůůƐ ŶŽƚ ĞǆĐĞĞĚŝŶŐ ϰ ĨĞĞƚ ŝŶ ŚĞŝŐŚƚ͘ Zoning ͲϮ > ĞŶƚƌĂů ƵƐŝŶĞƐƐ ŝƐƚƌŝĐƚ

ϭϬϬ

>Kt

Jan Feb Mar Apr May Jun Jul Aug Sept KĐƚ Nov ĞĐ

Ϯϰ͘ϰ Ϯϴ͘ϵ ϯϲ͘Ϯ ϰϱ͘ϰ ϱϱ͘ϲ ϲϰ͘ϭ ϲϳ͘ϳ ϲϲ͘Ϭ ϱϴ͘ϰ ϰϳ͘Ϭ ϯϰ͘ϱ ϯϲ͘ϭ

,/', F F F F F F F F F F F F

ϱϭ͘ϵ ϱϳ͘ϴ ϲϲ͘Ϯ ϳϰ͘ϳ ϴϮ͘ϴ ϵϬ͘Ϭ ϵϭ͘ϵ ϵϬ͘Ϭ ϴϯ͘ϰ ϳϰ͘ϰ ϲϭ͘ϲ ϱϯ͘Ϯ

WZ /W/d d/KE F F F F F F F F F F F F

ŽƌŶĞƌ ůŽƚƐ͗ /ƚ ƐŚĂůů ďĞ ƵŶůĂǁĨƵů ƚŽ ƐĞƚ ŽƵƚ͕ ĐŽŶƐƚƌƵĐƚ͕ ŵĂŝŶƚĂŝŶ͕ Žƌ ƉĞƌŵŝƚ Žƌ ĐĂƵƐĞ ƚŽ ďĞ ƐĞƚ ŽƵƚ͕ ĐŽŶƐƚƌƵĐƚĞĚ͕ Žƌ ŵĂŝŶƚĂŝŶĞĚ ĂŶǇ ƚƌĞĞ͕ ƐŚƌƵď͕ ƉůĂŶƚ͕ ƐŝŐŶ Žƌ ƐƚƌƵĐƚƵƌĞ Žƌ ĂŶǇ ŽƚŚĞƌ ǀŝĞǁ ŽďƐƚƌƵĐƟŽŶ ŚĂǀŝŶŐ Ă ŚĞŝŐŚƚ ŐƌĞĂƚĞƌ ƚŚĂŶ ƚǁŽ ĨĞĞƚ ĂƐ ŵĞĂƐƵƌĞĚ ĨƌŽŵ ƚŚĞ ƚŽƉ ŽĨ ƚŚĞ ĐƵƌď ŽĨ ƚŚĞ ĂĚũĂĐĞŶƚ ƐƚƌĞĞƚƐ ǁŝƚŚŝŶ ƚŚĞ ŝŶƚĞƌƐĞĐƟŽŶ ǀŝƐŝďŝůŝƚǇ ƚƌŝĂŶŐůĞ͘dŚŝƐ ƌĞƐƚƌŝĐƟŽŶ ƐŚĂůů ŶŽƚ ĂƉƉůǇ ƚŽ ƚƌĂĸĐ ĐŽŶƚƌŽů ƐŝŐŶƐ ĂŶĚ ƐŝŐŶĂůƐ͕ ƐƚƌĞĞƚ ƐŝŐŶƐ Žƌ ƵƟůŝƚǇ ƉŽůĞƐ ƉůĂĐĞĚ ǁŝƚŚŝŶ ƐƵĐŚ ĂƌĞĂ ďǇ ĂƵƚŚƌŝƚǇ ŽĨ ƚŚĞ ĐŝƚǇ͘

ǀĞƌĂŐĞ DŽŶƚůǇ WƌĞĐŝƉŝƚĂƟŽŶ

ǀĞƌĂŐĞ dĞŵƉĞƌĂƚƵƌĞ ZĂŶŐĞ

ůŝŵĂƚĞ ĨŽƌ >ƵďďŽĐŬ͕ dĞǆĂƐ DKEd,

KƚŚĞƌ ZĞƐƚƌŝĐƟŽŶƐ ĨƌŽŶƚ ǇĂƌĚ͗ ŶǇ ůŽƚ ůŝŶĞ ĂĚũĂĐĞŶƚ ƚŽ Ă ĚĞĚŝĐĂƚĞĚ ƐƚƌĞĞƚ ;ŶŽƚ ĂŶ ĂůůĞǇͿ ƐŚĂůů ďĞ Ă ĨƌŽŶƚ͘KŶ ĐŽƌŶĞƌ ůŽƚƐ͕ ƚŚĞ ĨƌŽŶƚ ƐĞƚďĂĐŬ ƐŚĂůů ďĞ ŶŽ ůĞƐƐ ƚŚĂŶ ǌĞƌŽ ĨĞĞƚ ĂŶĚ ŶŽ ŐƌĞĂƚĞƌ ƚŚĂŶ ƚŚĞ ƐĞƚďĂĐŬ ĞƐƚĂďůŝƐŚĞĚ ďǇ ƚŚĞ ĚĞǀĞůŽƉŵĞŶƚ ŽŶ ƚŚĞ ĂĚũĂĐĞŶƚ ůŽƚ Žƌ ůŽƚƐ͘hŶĞŶĐůŽƐĞĚ ĮƌĞ ĞƐĐĂƉĞƐ͕ ƐƚĂŝƌǁĂǇƐ͕ ƉŽƌĐŚ ŽǀĞƌŚĂŶŐƐ ĂŶĚͬŽƌ ďĂůĐŽŶŝĞƐ͕ ĐŽǀĞƌĞĚ Žƌ ƵŶĐŽǀĞƌĞĚ͕ ŵĂǇ ĞǆƚĞŶĚ ĨŽƵƌ ĨĞĞƚ ŝŶƚŽ ĂŶǇ ƌĞƋƵŝƌĞĚ ǇĂƌĚ͘

Ϭ͘ϱϬŝŶ Ϭ͘ϳϭŝŶ Ϭ͘ϳϲŝŶ ϭ͘ϮϵŝŶ Ϯ͘ϯϭŝŶ Ϯ͘ϵϴŝŶ Ϯ͘ϭϯŝŶ Ϯ͘ϯϱŝŶ Ϯ͘ϱϳŝŶ ϭ͘ϳϬŝŶ Ϭ͘ϳϭŝŶ Ϭ͘ϲϳŝŶ

ϵϬ

high ůŽǁ ϯ͘Ϭ

ϴϬ

Ϯ͘ϱ ϳϬ

Ϯ͘Ϭ

ϲϬ ϱϬ

ϭ͘ϱ

ϰϬ

ϭ͘Ϭ

ϯϬ

Ϭ͘ϱ

ϮϬ

Ϭ͘Ϭ : E & D Z WZ D z :hE :h> h' ^ Wd K d EKs

ϬϮD ^^ DK >

ϬϯD ^^ DK >

: E & D Z WZ D z :hE :h> h' ^ Wd K d EKs

ϬϰD ^^ DK >

ϬϭD ^^ DK > The design of this building is aimed for using the most light possible. A curtain wall system was chosen for the main facades in order to ĐŽƵŶƚ ǁŝƚŚ ƚŚĞ ŵŽƐƚ ŶĂƚƵƌĂů ůŝŐŚƚ ƉŽƐƐŝďůĞ͘ /ƚ ĐŽƵŶƚƐ ǁŝƚŚ >ŽǁͲ ĐŽĂƟŶŐ ƚŽ ŵŝŶŝŵŝǌĞ ƚŚĞ heat gained from the glazing. This allows and minimizes the use of electric light during the day. The design and aesthethic of the building permits the natural light from the south-‐west.

ϬϮD ^^DK > ϬϯD ^^DK > When developing the design of this ƐĐŚĞŵĞ͕ ƐƉĞĐŝĂů ĂƩĞŶƟŽŶ ǁĂƐ ďƌŽƵŐŚƚ ƚŽ ŚŽǁ ƚŚĞ ůŝŐŚƚ ǁŽƵůĚ ĂīĞĐƚ ƚŚĞ ŽƌŝĞŶƚĂƟŽŶ ŽĨ ƚŚĞ ďƵŝůĚŝŶŐ͘ dŚĞ ŝĚĞĂ ǁĂƐ ůĞƫŶŐ ƐŽŵĞ ŽĨ ƚŚĞ ŶĂƚƵƌĂů ůŝŐŚƚ ŝŶ without using the typical curtain wall system. The glazing around the building is what allows this to happen but at the ƐĂŵĞ ƟŵĞ͕ ƚŚĞ ĐůĂĚĚŝŶŐ ĂĚĚĞĚ ƚŽ ƚŚĞ facade is what keeps the building exposed from all the natural light. This is what makes the building consume more electric energy than the previous design.

The design of this model we decided to play around more with the form and program. For this model we ǁĂŶƚĞĚ ƚŽ ƐŚŝŌ ƚŚĞ ŵĂŝŶ ĂƩƌĂĐƟŽŶƐ ƚŽ ƚŚĞ ƚŽƉ ŇŽŽƌ ůŝŬĞ ƚŚĞ ƌĞƐƚĂƵƌĂŶƚ ĂŶĚ ƌĞƐŝĚĞŶĐĞ ƐƉĂĐĞ ƚŽ ƚŚĞ ƚŽƉ ŇŽŽƌƐ ƚŽ ŐĞƚ Ă ƐĞŶĐĞ ŽĨ ďĞƩĞƌ ƉĂŶŽƌĂŵŝĐ ǀŝĞǁƐ ŽĨ the city.

BASEMENT FLOOR PLAN

25 x 7 1/4" = 15'-0"

23 6 22 7 21 8 20 9 19 10 18 11 17 12 16 13

15'-‐0"

17'-‐6"

EAST ELEVATION 15'-‐0"

23 x 7 1/4" = 14'-0"

23 3

20 6 19 7 18 8 17 9 16 10 15

11 14 12

3 24

ELEVATOR STAIRS ELECTRICAL CLOSET FAN ROOM BOILER AND CHILLED WATER PLANT EXHAUST AIR FRESH AIR ELECTRICAL TRACKING

18'-‐6"

1 2 3 4 5 6 7 8

20'-‐0"

23'-‐0"

17'-‐0"

25'-‐0"

23'-‐6"

AVE J

GROUND FLOOR PLAN BROADWAY

17'-‐6"

15'-‐0"

NORTH ELEVATION

AVEJ

18'-‐6"

25 x 7 1/4" = 15'-‐0"

23 6 22

7 21 8 20 9 19 10 18 11 17 12 16

13 15

1 LOBBY 2 RESTAURANT 3 BATHROOMS 4 ELECTRICAL CLOSET 5 STAIRS 6 ELEVATOR 7 MAIL ROOM 8 MAIN OFFICE 9 LOADING DOCK 10 EMERGENCY EXIT 11 EMERGENCY EXIT

15'-‐0"

20'-‐0"

23'-‐0"

17'-‐0"

25'-‐0"

23'-‐6"

TYPICAL FLOOR PLAN 2ND -5TH FLOOR

15'-‐0"

84'-‐3"

17'-‐6"

65'-‐6"

SOUTH ELEVATION

15'-‐0"

OFFICE BATHROOMS ELECTRICAL CLOSET STAIRS ELEVATOR STORAGE

18'-‐6"

22 x 7" = 13'-0"

1 2 3 4 5 6

3 20

16'-‐7"

8'-‐2"

11'-‐6"

6'-‐6"

23'-‐9"

6TH FLOOR PLAN

10'-0"

67'-0"

15'-0"

3 2

WEST ELEVATION

KITCHEN DINING ROOM LIVING ROOM BEDROOM BATHROOM ELECTRICAL CLOSET STAIRS ELEVATOR TERRACE STORAGE

18'-6"

22 x 7" = 13'-0"

1 2 3 4 5 6 7 8 9 10

15'-0"

58'-6"

5 23

17'-10" 1

25'-0" N

23'-6"

&/Z ^d /Zt >>

^ Zs/ KZ > s dKZ ^, &d

RE^/ E

h/> /E' ^dZh dhZ ͬWZK'Z D ^ d/KE

13'-11 1/4"

K&&/

ϲƚŚ ŇŽŽƌ

10'-7 1/2"

12'-11"

K&&/

3'-0"

^d > K>hDE^ ϱƚŚ ŇŽŽƌ 12'-9"

KE Z d &>KKZ ^> ^

K&&/

13'-3 1/4"

12'-9"

ϰƚŚ ŇŽŽƌ

K&&/

13'-0"

11'-9"

3rĚ ŇŽŽƌ

12'-0"

K&&/ 13'-0"

ϮŶĚ ŇŽŽƌ 14'-0"

6'-10 1/4"

1sƚ ŇŽŽƌ 2'-0"

1'-0"

RESTAURANT

hZd /E t >> ^z^d D

^dZh dhZ ^/'E E DK >/E' 1'-0"

h/> /E' dzW Site Cast Concrete

12'-6"

allows these system to remain either wholly 12'-0"

By choosing this system these are some factors that precast concrete system will allow us tŽ ĚŽ͗

12'-0"

the system. The possible use of the underside of the slab as a ĮŶŝƐŚ ĐĞŝůŝŶŐ͘

12'-0" 12'-0"

12'-0"

STRUCTURAL SzSTEM

12'-0"

Two-‐Way Flaƚ Wůate KƵƌ ďƵŝůĚŝŶŐ consists of concrete slabs, reinforced

12'-0" 12'-0"

by columns without beams or girders; this is called Ă Ňate plate system. /ƚ ŝƐ Ă ƐŝŵƉůĞ structurĂů ƉůĂŶ͕ĂŶĚ ŝƚ ŚĂƐ ƐŽŵĞ Ňexibility in column placement. The following are some of this system’s

12'-0"

14'-1"

Tensile reinforcement 5” to 12” slab depth; span/33 short spans of 12’ to 24’ While a regular column grid is most appropiate, some Ňexibility in column placement is possible. Ňat plate.

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reinforced concrete slab.

MEP MODELING_01 Variable Air Volume (VAV) For our building’s mechanical system we chose the Variable Air Volume system, which is a single duct all central air system. This is one of the most versatile systems for heating and cooling for large buildings. This system works very well with our building due to

Cooling Tower

and residence space.

Elevator Sha

These are some of the reasons why we chose the Variable Air Volume system : -Minimizes operating cost -Maximizes control of air velocity and air quality -Maximizes individual control over temperature -Minimizes system noise -Minimizes visual obtrusiveness

Boiler Chimney Supply Ductwork

-Minimizes system maintenance These are the major components of this system: -Boilers and chimney -Chilled water plant -Cooling tower -Fan room -Outdoor fresh air -Exhaust louvers -Vertical supply and return ducts

Return Ductwork

Return Sha

Di users

Registers 13

Boiler Supply Sha Chiller

ZONING The spaces of our building consist of :

VARIABLE AIR VOLUME (VAV) DIAGRAM

14 12

11 10 9

loading dock, and mail room

7 6

3 4 5

1 CHIMNEY 2 BOILERS 3 CHILLED WATER PLANT 4 CHILLED WATER 5 HOT WATER OR STEAM 6 FRESH AIR 7 EXHAUST AIR 8 FAN ROOM 9 HUMIDIFIER 10 VAV TERMINAL 11 DIFFUSER 12 SUPPLY DUCTWORK 13 COOLING TOWER 14 RETURN DUCTWORK

MEP MODELING_02 SIZING Our building’s mechanical equipment is all located in the basement. -it contains one boiler with piping of 4”-8” and a chimney of 2’x2’ The approximate size is around 2000sq ft between the boiler room and the chiller room; -there is one chilled water plant with duct work of 5’x5’ connecting to a cooling tower of 14’x7’ COOLING TOWER (14’X7’)

COOLING TOWER

DUCTS (5’X5’)

EXHAUST AIR FRESH AIR

DUCT WORK

PIPES (4”-‐8”)

BOILER (6’X6’X5’)

BOILER AND CHILLER ROOM

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BASIN CABINET

TOILET WASTE LINE

COLD WATER LINE

TOILETS HOT WATER LINE

WASTE LINE

WATER HEATER

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Average Temperature

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Energy Balance Evaluation Energy Consumption by Targets Energy quantities 5 16 10 2

ArchiCAD Educational version, not for resale. Courtesy of Graphisoft.

Key Values General project data Location: Activity Type: Evaluation Date:

Lubbock Tx Multiple 11/28/2011 3:24 PM

Building geometry data Treated floor area: 32619.55 Building shell area: 23282.65 Ventilated volume: 406386.03 Glazing ratio: 15

sq ft sq ft cu ft %

Building shell performance data Air leakage: 0.71 Outer heat capacity: 6.96*10-4

ACH Btu/sq ft,F

Heat transfer coefficients Building shell average: Roofs: External walls: Basement walls: Openings:

U value 0.16 0.10 - 0.10 0.11 - 0.48 0.29 - 0.29 0.23 - 0.23

[Btu/sq ft,F,hr]

Specific annual demands Net heating energy: Net cooling energy:

36.36 81.99

kBtu/sq fta kBtu/sq fta

235.60 268.54 0.68 16.18

kBtu/sq fta

Energy consumption: Primary energy: Operation cost: CO2 emission:

Energy Target name

Cost

Primary

Emission

MBtu/a

USD/a

MBtu/a

lb/a

Heating Cooling Hot water generation Ventilation fans Lighting & appliances

Sum:

CO2

Quantity 1195.2 5134.6 170.3 763.8 418.5

7010 7215 999 4480 2454

1332.1 3690.2 187.4 2291.3 1255.4

166929 171801 23791 106675 58443

7682.3

22160

8756.4

527640

[%]

67 Energy costs 11 32 20

kBtu/sq fta USD/sq fta

[%]

lb/sq fta Energy

Energy Consumption by Sources

Source name

Energy Source type

Environment Natural gas Electricity

Sum:

Quantity

Cost

MBtu/a

USD/a 0 7956 14204

0 189438 338202

7682.3

22160

527640*

CO2 emission

87% 51%

[MBtu]

lb/a

3904.5 1356.4 2421.5

Quantity

Environment Natural gas Electricity

CO2 emission

Source name

Renewable Fossil Secondary

32%

1000

17%

2000

3000

3904.5

32 20

[%]

5 32

Monthly Energy Balance Supplied energy Energy quantities

925.6

CO2 emission

Energy costs

750 500

36 32 [%]

18 64

[%]

36 64

[%]

250

36 Jan

Feb

Mar

Apr

May

Jun

Jul

Aug

Sep

Oct

Nov

Dec

0 [MBtu] 0 250

500 * This amount of CO2 is absorbed in one year by 3.0 acres (roughly equivalent to 2 football fields) of tropical forest.

750 Emitted energy

Lighting and equipment Hot water generation Mechanical heating Human heat gain Solar gain Transmission Infiltration Mechanical ventilation Hot water Mechanical cooling

VIEWS