Gillian Ashley - Folio by rayunimelb

Giant Crab Eats Student

WIP Folio by Gillian Ashley

Cognitive map...

GILLIAN ASHLEY #107259 - WEEK 2- CONCRETE LAWN - SENSE OF PLACE

GILLIAN ASHLEY #107259 - WEEK 3 - CONCRETE LAWN - COLOUR PALETTE

Concrete Lawn - Legibility Map

Nodes

Landmarks

Edges

Districts

Paths GILLIAN ASHLEY #107259 - WEEK 3 - CONCRETE LAWN - LEGIBILITY MAP

Concrete Lawn - Legibility Map

MSD

Nodes

Landmarks

Edges

Districts

Paths

Buildings

GILLIAN ASHLEY #107259 - WEEK 3 - CONCRETE LAWN - LEGIBILITY MAP

Concrete Lawn - Bubble diagram

macroecology local ecology

wetland roof

wetland @ ground

research+ education

spectacle social

Program list DESTINATION COURTYARD SPECTACLE

ads + products

carbon sink MTPA

photovoltaic wrapping facades

volunteer ecology

ABANDONMENT EXISTENTIAL FORAGE FERRIS WHEEL MULTI-TROPHIC PERMACULTURE ARRAY (MTPA)

e istential forage

WETLAND ROOF VOLUNTEER ECOLOGY SPONSER ADVERTISIING / PRODUCT PLACEMENT

ferris wheel

pedestrian access

PEDESTRIAN ACCESS WETLAND/S... RESEARCH FACILITY

mechanical / hydro energy +++

FUNCTIONAL CARBON SINK ENERGY GENERATION WRAPPING FACADES

GILLIAN ASHLEY #107259 - WEEK 5 - CONCRETE LAWN - BUBBLE DIAGRAM

oncrete Lawn - rea elationship Plan i

macroecology

research+ education

spectacle local ecology

social

Program list DESTINATION COURTYARD SPECTACLE

MTPA

wetland roof

volunteer e istential ecology forage

ABANDONMENT

photovoltaic fabric overhead

nike ferris wheel

wetland @ wetland @ nike ferris wheel ground ground photovoltaic tent over

photovoltaic wrapping facades

EXISTENTIAL FORAGE FERRIS WHEEL How big is a ferris wheel? MULTI-TROPHIC PERMACULTURE ARRAY (MTPA) How much surface area is needed? Depth of 25m How much sun gets down how far/ compared to how much light would get in wherever i put it... aka is it ok to be shaded by a building

ads + products

WETLAND ROOF VOLUNTEER ECOLOGY

carbon sink

SPONSER ADVERTISIING / PRODUCT PLACEMENT PEDESTRIAN ACCESS WETLAND/S...

MTPA

pedestrian ferris RESEARCH FACILITY access wheel FUNCTIONAL CARBON SINK ENERGY GENERATION GILLIAN ASHLEY #107259 - WEEK 6 - CONCRETE LAWN - AREA RELATIONSHIP PLAN

mechanical / hydro energy +++

oncrete Lawn - rea elationship Plan ii 43

digital billboard photovoltaic safety wrapping of facade during repairs construction

proposed wetland roof MTPA

boston ivy growing on the entire edmond Barry Building

volunteer e istential ecology forage nike ferris wheel

wetland @ wetland @ nike ferris wheel ground ground boston ivy growing on the entire aymond Priestly Building except the arch pillars and ceiling vaults

Scale 1:750 GILLIAN ASHLEY #107259 - WEEK 6 - CONCRETE LAWN - AREA RELATIONSHIP PLAN

digital billboard photovoltaic 42 wrapping of facades

43 .0 1 42

GILLIAN ASHLEY #107259 - WEEK 7 - CONCRETE LAWN - - ABSTRACT AREAS PLAN 2

43 .4

42.2 42.4 42.6 42.8 43.0 43.2

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LOADING Z ON

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boston ivy growing on the entire edmond Barry Building 43

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TIN ALLEY

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boston ivy growing on the entire aymond Priestly Building except the arch pillars and ceiling vaults 42

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PRODUCED BY AN AUTODESK STUDENT VERSION

42.8

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digital billboard photovoltaic safety wrapping of facade during repairs construction LOADING Z ON 42

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PRODUCED BY AN AUTODESK STUDENT VERSION

42.8

42.6

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Concrete Lawn - Abstract Areas Plan i / Wetland base .4 0

43 .3

43 3 43.6

43.0 43.2 43.4

43.6

ROAD

42.0

42 5

digital photovoltaic billboard wrap

1950’s path network translated as a wetland hedge or bed edges

1950’s path network translated as a steel mesh rope suspension bridge

Rubble volunteer wetland

43 6

43 .1

43 8

9 42 .8 8

Hedge block, or block of...

42 .1 5 42 .2

42 42.4

MTPA

41.2

ulti-trophic permaculture array

43 1

43 .4

42.6 42.4 42.2

42.2 42.4 42.6 42.8 43.0 43.2

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digital billboard photovoltaic wrapping of facades

42.2 43. 4

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43 .2

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42 42 .4 .44 6

IL42.81 Ø100

.4 4 42

IL42.78 Ø100

IL42 .87 Ø10 0

43 42.07 43.9 43 .03.0 9 9 43 43 .0 .0 4242 8 8 .9.9 44

9 42 .3

3 42

.6 42 3 .6

42 42 .5 .6 8 0

IL41.76 Ø225

.6 42 0 .5

42 .6 42 1 .6 1

44.0 43.8 43.6 43.4

43.2

42 3

IL41.53

.5 42

42 .4 42 .542 8 8 42 .47 .5 0 .5 7

42 42 .7 .77 5

IL42 .35 Ø10 0

IL 42 Ø 42.4 .9 22 3 5 5

43.2

IL 42 Ø30 .33 0

42 42.8 .8 8 7 8

IL41.99 Ø225

42 .9 3 .9 1 42 42 .91 .9 2 42 .9 2

42 42 .8 .8 0 1

9 42 .8

2 42

43.8

43.2 43.4 43.6

.7 8 42

D(D )

Ø150 IL41.40

D:0.58

.5 8

E(B)

D:0.44

41 41 .63 .6 4

G(B)

43.2

UNP

D:0.75

D:0.35

41 .8 41 2 .8 1

D:0.73

CONC. NAIL

42.0

D:0.72

41 .6

D:0.34 6 .1

8 D:0.87 .0 D:0.87 42 CMP D:0.7

42 2

D:EOT

E: 284287.76 N: -159482.21 RL: 543.39

42.6

Ø100

42 42 .2 .2 42 9 42 8 .3 1 .2 7

42 .8

43.6 43.0 43. 43.4 2

43.0 43.2

D(D)

ELB

42.6

E(B) 1 D:0.37

42 .1 42 1 .1 1

D:0.74

Ø300 IL40.87

D:0.34

41 .7

D:1.35

41 .6

.6 7

D:0.8

.6 5

42 .1

.5 42

42 .4

6 D:0.52

42 .6 42

D:0.53

D:0.8

41 .6 1 Ø300 IL40.72

D:0.6

42 .0 .0 6 4

.6 5 42 42 .1 .1 9 8 42 42 .1 .1 9 9

.7 9

42 42

8 .9 42GP

D(D)

42 UNP

D:0.8

.0 5

C(B)

D:0.45

.0 1

42 42.2 .3 9 0

42 .1

5 D:1.2

.0 4

.1 9

D:0.82

42 42 .0 1.0

.9 7

42 42 .1 .15 5

0 Ø15 9 IL41.2

41 .6 8

41 41 .9 .9 0 2

.0 7 42 .0

2 4

MH 41

.8 1 41 .8 41 0 .8 0

6 41

0 42

41 41 .7 .8 8

D:0.88 D:0.88

42 .0 42 9 .1 0 42 .1 0

2 .4 .43 42

41 .6 6

D .6

CMP

D:0.34

Ø300 IL40.59

D:0.46

D:0.23

41 .7 4

D:0.7

.2 8

IL42.31 .9 Ø300 42

42 .4

D:EOT

42 .0

IL40.27 Ø225

42 .1

D:1.0

IL40 Ø225.57

)

7 D:0.25 .28 .2 42 42

D:0.6

D:EOT

.8 6

41 .8

UNP

4242 .2.28 9

Ø300 Ø150 IL41.4 IL41.58 9

D(D)

9 D:0.58

D:0.66

D:0.79 D:0.79

D:1.33

D(D

D:0.75 41

D:0.8

ELP

.9 41

D:1.33

D:0.8

UNP D:0.64 7 .0 42

D(D)

D( D)

D:0.63 41

D:0.66 0 .9 0 D:0.66 41 41.9

UNP

IL41.51 Ø150

D:0.55 .9

Ø150 IL41.50

D:0.75 1 .0 42

D:1.43

C(B)

41 41 .77 .7 6

3 D:1.6

42 42 .08 .0 7

D:1.43

41 .7

D:1.6

.2 5

.3 5

7 D:0.22

41 .8

ELP .9

.3 2 42 .3 3

D:0.26

D:0.66 41

E(B) E(B )

.3 0

42 .3

D:0.67 9

42 42 .21 .2 0

.9 1

.1 9

.1 2

D:1.21

41 .9

C(B)

41 .7

.0 8

42 42

UNP

.9 1

D:2x300p 42

42 .0

.0 7 IL40.39 Ø225

D( 42

.9 8

D) 41

IL40.27 Ø225

D:0.65

41 .9 6

D:1.1

IL41.55 Ø150

2 41

42 6

1 D:0.4

42 .3 0

D:0.75 41

42 42 .43 .2 7

D:0.34

41 41 .9 .9 41 4 3

D:0.48

D:p100

41 .9

42 42 .3 .3 3 4

3 D:0.41

D:2.5

.9 1

42 .9

5 42

43.2

Ø100 IL41.51

E(B) C(B) 1

C(B)

IL42.15

42.2

5 D:0.25

D(D)

D:hv D:2x150p 9 .4 42UNP empty D:2x150p D:4x100p

D(D)

42 .2

43.2 42.8 43.0 43.2

D) D:1.21

2 D:0.5

0 D:0.7

D:0.71

.6 42 7 .6 7

D:0.4

D:0.95

.3 5

C(B) 6

42 .6 42 6 .6 42 42 6 .6 .6 6 7

5 D:0.24

D( 42 .3

42 1 .34

D:0.4

IL42.39 Ø100 D:0.41

3 .6

.7 42

IL42.18 Ø300

41 .8 8

2 D:hv .5 UNP

4 D:0.8

.6 9

D(D)

42.8

D:1.09 5 D:1.09

D) 42 42 .2 6 .29

D:1.05

.6 1

D:0.92

D( 42

D:0.32

D:poor trace UNP D:0.6

9 .8

D:1.31

Ø150 IL40.96

D:EOT

D:1.66 2 .4 42 .3

43.0 43.2

4242 .3.31 1

2 .8

UNP

.3 5

D:0.6

CMP

9 D:0.78

D( 43.2 43.0

D:EOT

D:0.93 7

7 D:0.73

42.2 42.4 42.8 43.0 43.4 43.6 42.6 43.2

42.8

D:0.25

42.8

D:0.73

42.8

C(B)

IL42.36 Ø100

7 .5 D:EOT

D:0.58

42 .3

.5 5 D:1.4

WSP

IL42.16 Ø375

Ø150

)

UNP

42.0

6 D:1.8

44.0 43.8 43.6 43.4

42.8

42 42

42 .1 0

IL41.99 Ø150

42 .2

42 .4 5 .4 424 .3 3

42 .4

)

42 42 .7 .7 0 1

E(B) 42 0

42 .3

D:0.91

D(D)

42.6

D:0.85

D:0.35

42.8

D:0.39

D:0.66 .8

D) 42

D:0.94

8 D:0.33

42 .0

D:0.89 5 D:0.97 .4 42

E(B) D:0.5

.3 8

IL41.82 Ø100

42 42 .9 .99 9

UNP

D:0.34

D:0.34 D:0.34 D:0.34 D:0.34 D:0.34

D:EOT

D:0.8

42 42 .4 .50 9

D:0.39

42 .8

D:1.5 42 1

42.8

Ø15 IL41 0 .66

E(B)

42 42 .5 .4 0 9 43 42 .4 .0 7 42.5.40 3 9

D:0.36 UNP UNP D:0.57 D:0.52 4 1 .7 .7 42 42

42 .2

5 .3

D:0.6 D:0.6

D:0.36 D:0.53 9 42

42 .3

D:0.86 .2

.3 6

CONC. NAIL

D(D) D:1.22 42

UNP D:1.22

E: 229587.92 N: -244747.38 RL: -267.88

42.8 42.8

C(B)

D:0.86 D:0.86

D:0.3 D:0.67

D:0.23

D:1.63

C(B) C(B)

D:0.89

D:0.71

D:0.79

42 .5 2

E(B)

42 .4

D:0.53

D:0.5

8 7

D:.85

.2 .3

D:0.54

D:0.57 42

IL41.6 Ø300 4

D(D)

9 D:0.5

.3 7

D:0.52

D(D)

D:0.65

D:0.29

42 42 .4 .2 7 6

D:0.79

D(D)

D:0.49

D:0.59

E(B)

.4 4

D(D)

D:0.56

5 D:0.73

C(B)

D:0.36 D:0.53

D(D)

D:0.15

42.4

8 D:0.49 D:0.35 D:0.34

D:0.65

D:0.4

D:0.32

D:0.37 D:0.37

D:0.6 D:0.2

42.2

D:0.76

D:0.44

43.6 43.8 43.2 43.4

42 .1 1

42 .7 1

43 .1 0

43 .0 7

43 .1 3

42 .9 4

Ø225

42 .6 7

42 .7 8

42 .7 2

42 42 .3 .3 1 6

42 .2 3

42 .9 3

43 .9 9

42 .2 3

42 .8 7

43.2 43.2

Ø225

IL42.10

E(B)

.8 .8

42 42

43 .0 8

43 .1 6

42 .8 42 .8 5 7 2 42 .8 4

.6 42 4 .6

IL41.49

42 .7 8

8 42

5 42.8

.8 .7

42 42

42 42 .6 .68 7

41 .7 2

42 .4 5

1 42

0 .4

.4 42

43 .1 1

Ø225

IL41.41

42 .4 6 42 .4 6 .4

IL42.79 Ø100

D:0.8 0 D:0.69 .7 D:0.63 D:0.84

D:0.39

1 D:1.29

UNP

E: 209584.09 N: -146987.48 RL: 292.23

D:0.68

2 D:0.65

D:0.83 6

C(B) C(B)

D:0.36 D:0.36

42.2 42.4 42.6

UNP 1 .5 42 D:EOT 0 .5

D:0.43

D(D)

D:0.49

D:EOT

.4 42 4 .4 2

D:0.67

D:0.5

D:0.63 8 D:0.63 .7 42

D(D)

D:0.5

D:0.4

D:EOT

CONC. NAIL 42

WSP

G(B)

D:0.61

D:0.9

D:0.9 4 D:0.9 .3 42

D:0.46

D:0.41

42 42 .2 .2 3 5

42 .4

6 D:0.5

.5 1 42 .5 7

D:0.39

D(D)

7 D:0.6

.6 42 .60 42 D:0.75

IL41.67 Ø225

42 42.5 .69 0

D:0.39

42 .5 42 7.5

D:0.6

5 D:0.6

6 D:0.65

D:0.88

G(B)

CMP

E: 0209277.41 N:.5 -199097.48 RL: -133.25 0

D:0.4

42 4 .7

.5 .5 1 2

D:0.8

9 42 42

IL42.7 Ø100 0 D:0.45

D:0.92

3 D:0.4

D:0.7

D:0.4 D:0.4

.4 9

42 42

D:0.7

CONC. NAIL

42 42.5 .5 8 9

D:0.82 D:EOT

42 .7

D:0.71

D:0.91

.6 7

D:0.49

9 D:1.28

6 D:1.4 .6

D:0.7

D:0.66

D:0.92

UNP D:1.29

D:0.86

8 D:EOT .0 43 D:0.7

UNP

D(D)

43.2

E(B)

3 D:0.9

42 .3

D:0.88 EOT D:0.6

D:0.73

.5 1

D:0.73

D:0.82

.4 7

D:0.85

D:0.50 D:0.9

D:1.34

D:0.7

IL41.81 Ø225

.6 42.6

2 .5 D:1.54

D:0.5

D:1.63

42 42 .5 .5 6 1

D:0.68

D:0.4

42 .3

D:0.68 D:0.68 8

3 D:0.5

42 .442 6 .3

42 42 .3 .3 6 7

D:0.84

42 .6

D:0.25

42 .3

D:0.8 9 .2

D:0.4 UNP

D:0.5

D:1.05

D:0.58

D:0.7

D:0.26

D:0.6

.3 1

E(B)

.4 6 42 .4 42 5 .4 4

D:0.93

42.4

1 D:0.54

6 D:0.78

D:0.54

43 .1

C(B)

G(B) .4

E(B)

D:0.6

D:0.74 D:0.7

.3 4

D:0.59

E(B)

.4 9

G(B)

4 D:0.65

D:0.31

.6 3

UNP

42 42

.5 3 42 .5 4

D:0.8

D:0.43

IL41.80 Ø300

.5 1

6 1

D:0.47

D:0.6

3 42

43.0 43.2

UNK(B)

D:EOT

CMP

.5 42 3 .5 1

42.6

42 42

D:0.56

.5 .5

D:0.26 IL41.89 Ø225

D:1.24

1 D:0.5 D:0.5

CMP

.5 .3

G(B)

5 42.5

D:1.29

D:0.15

42.8

CMP 42

D:0.49

42 .3

0 D:0.55

42 42.56 42 .5 .5 5 4

43.4 43.6 42.8 43.0 43.2

D:0.78

.3 0

UNP

.4 1 42

C(B)

D:0.37

.3 2 42

D:1.18

D:0.79

42.8 43.0 43.2 43.4 43.6

IL41.81 Ø300

G(B)

C(B)

D:0.3

42 .4 3 42 .4 3

MH 42

D:0.78

7 D:0.25

42 9 .4 42 9 .4 42

IL41.90 Ø225

.3 42.3 5 3

7 .2 D:1.3

2 D:0.98

D:1.35

D:0.5

.2 4

.2 8

8 2

.8 .0

2 43

D:0.56

.3 1

D:0.5

D:1.35

5 D:0.55

42 .4

G(B) .4

42.8 43.0 43.2 43.4 43.6

42 .2

UNP

42 .9

D:0.71 D:0.88

42.8 42.8

D:0.56 .4 0

D:1.15

42 0

D:1.4

Ø1 IL41 50 .55 42 .2 42 4 .2 42 3 .2 2 42 42 .2 .3 3 1

42 42 .2

G(B)

42.6

42 .3

D:0.44 42

42 .3 .3 1 0

D:0.88 D:0.34 42

D:0.35

40.8 41.0 41.2 41.4 41.6 41.8 42.0 42.2 42.4

ELP 42

D:0.78

CMP

Ø IL 150 42 .3 5

GAP

41.4 41.6 41.8 42.0 42.2 42.4 42.6 41.0 41.2 40.8 42.8

Ø225 1

IL41.52 42 42 42 .26 42 .3 .2 .2 5 7 9

D:0.81

D:0.29

42 .2

D:1.03

42.8

D:0.63

42 .3

42 .6

42 .7 3 D:0.68

0 42 .3

.6 2 D:0.51

42 .4

.4 1

D:0.41

42 .3

43.0 43.2 43.4 43.6 42.8

2 .5 CMP

42 .4

D:1.39

D:0.81

42 .5

7 42

D:0.58 42

D:0.39

IL42.42 IL42.32 Ø225 Ø100 D:0.73

42 .5

42.6

G(BC( ) B)

42 42 .7 42.7 8 .78 9

D:0.15

D:EOT

42 .5

D:0.47

43.4 43.6 43.0 43.2 43.4 43.6 42.8

.5 9

G(B)

42.8 43.0 43.2 43.4 43.6

43.2 43.0 42.8

42.6

42 .6

D:0.59 D:0.5 D:0.75

42.8

E(B) C(B) E(B)

.96 IL41150 Ø .6

UNP

42 .7 6

.7 8

42 .6 43 .8 .0

.7 6

D:0.4

42 42.85 .8 7

.2 0 42 .2 3

42 .7 42 42 4 .7 .7 6 5 42 42 .7 42 42 6 42 .80 .8 .7 .80 3 0

43.0 42.8 42.6

.6 3

G(B)

0 D:0.57 .6 42 D:0.95

42 .5 42 5 .5 42 6 .5 9

.2 42

42 .6

D:1.1

D:0.19

.5 5

5 42 .6

42.8 43.0 43.2 43.4 43.6

ELP

42 .6

.3 42.3 2 3

ELP

.7 2

.6 8

42 1 .53 42

D:0.37

42.8 42.8

40.6 40.4 41.0 40.8 41.2 41.4 41.8 42.6 41.6 42.0 42.2 42.4 42.8 42.8

4242 42 .7.7 .7 67 7

D:0.92

CMP

9 D:0.54

D:0.3

.6 5

.8 6 42 .8

43 .6

IL42.01 D:0.82 Ø100

D:0.5

.7 2

.6 0

.6 1

.7 .7

D 42

42 42.742 .72.7 42 2 2 .7

42.8

C(B)

42.8

.6 42 9 .6

D:1.0 D:0.75

D:0.8

42.8

ELP

CMP

D:0.9

42 .6

42.8

C(B) 7

.5 8

42 .6

D:0.8 D:0.8 D:0.75 42

D:0.49

D:1.08

7 6

42 .5

D:1.2

.6 5

D:0.47

D:0.4

42 .8 42.6

D:0.56

D:0.62 0 .8 42

42 .6

C(B)

42.8

IL42

.44

42 .6

42.8

42.4

D:0.39

.7 42.7 9 9

42 .6

D:0.27

42 .6

D:0.390

D:0.4

42 42.70 .6

42.2 42.4

42.6 42.6

42.8

Ø150 IL41.87

UNP

42 42 .6 42.6 8 .68 7

E: 119418.47 N: -301976.58 RL: -439.92 42

D:EOT

42 42 .5 .5 6 6 42 42 .5 42 .5 7 3 .5 4

42 42 .33 .2 6

434343 .1.1.1 00 1

D:1.21

IL42.52 Ø100

42 42

D:1.06

42 .5

E(B) .6 5

IL42.16 Ø100 42

8 D:0.49 0

D:0.9 CMP 9 D:0.28

42 .5

42 .6

42 42 .6 .6 8 7

CMP

2 D:1.04

D:0.5 .8

42 .6

IL41.7

0 .7 41 0 IL Ø30 IL41.97 Ø150

.6 5

42 42

3 42

42 .6 7

D:0.28

0 D:0.29

D:0.9

.6 2

42 .5

CMP

C(B)

43 .0

.0 4

UNP D:0.61

D:0.59D:0.78

D:0.7

.5 7

42.6

42.8

42 .7

D:0.6 D:0.25 D:0.25

.5 4

.4 42.4 8 9

D:0.35

UNP

42 .5

IL42.39 Ø150

42 42 .5 .5 9 9

42 .5

.5 5

D:0.25

42 0 .4 9 42

.5 .7 7

42 .5

D:0.75

42 42.6 .6 5 6

6 D:0.43 9

.5 1

42 .5

D:1.25 GP

00 Ø3 8 2.7 IL4

IL42.14 Ø100

.6 5

.7 0

D:0.8

D:0.66

.6 42 1 .5

42 .5

Ø100 42 IL41.48 .5 1

42 .7 9

IL41.57 Ø300 D:0.95

Ø100 IL42.29

Ø100 IL42.23

Ø100 42

42 .5

IL41.98 Ø100

42 42.5 .5 3 4

7 D:0.8

42 .6

.5 9

42.8 43.2 43.0

.6 5

42 .6 7 42 42.6 .6 5 7 42 .6

42.6

42 .5

42 .7

D:0.24

.6 2

42 0 2 Ø1541.9 IL

E(B)

42.8 42.8

D:0.7

7 D:1.18

42.6

42 .7

Ø300

3 D:0.92 .6 42 IL41.58

D:0.78

UNP

.6 6

42.8

.6 42 .5 5

42 .6

CMP 42

42 .7

.842.8

D:0.22

42.6

CMP

8 D:0.45 .5 42 D:0.41 8 .5 42

.6 42 7 .7

42.8 43.0

42 .6 5 42 42 .6 .6 4 42 4 .6 4 42 .6 4

1 42

42.6

D:0.55 D:0.25

42.4

IL39.47 Ø100

42 42.73 .7 4

42.6

D:0.36

Ø300 IL40.86

42.8 42.8

41.8 42.8

42.2

43.0 42.8

42.6

42.

D:0.92

D:0.77

.7 9

D:0.59

42 42 .5 .56 7

D:0.58

42.6 42

42 .4 42.6 42

UNP 42

UNP D:0.83

.6 1

42 .6

D:1.02

IL42.37

.6 1 43

42 .6

5 42

.2 2 .2 42.2 0 4

D:1.25

.4 43.0 43.2

42.8 43.0 43.2

D:0.43 D:0.5

D:0.84

G(B)

42.2 42.4 42.6 42.0

40.4 40.6 40.8 41.0 41.2 41.4 41.6 41.8 42.0 42.2

42 .8

43.0

.2 42 2 .2

.1 3 42 .1 4 42 42 .1 .1 6 7 42 42 .1 .1 5 6

42 42

4 D:0.82

C(B) C(B )

42.8

42 .6

42.6 42.8 43.0

D:0.27

UNP

5 8 22 Ø 40.2 IL

IL41.24 Ø150 Ø150UNP UNP

42.8 43.0

.6 42 1 .6

42 .6

.6 6

42 .8 42.8

42 .6

D:0.5

42.2 42.4

42.8

42.8 42.8

43.4

42.4

0 4 Ø1042.4 IL

Ø150 IL42.36

43.2

42.6

43.4

Ø150

42.6 42.6

.6 7

6.6 .542

D:0.30

D 42

D:0.65

D(D)

3 9 D:0.54

3 D:0.64

CMP

G(B)

UNP .8

D:0.73

D:0.93

D:0.7

43.4

42.4

5 .2

IL41.93 Ø100 42.6

.6 43

43.0

CONC. NAIL 42.6

D:1.21

E(B) E( B)

42 42.6

Ø1 50 IL4 2.3 3

D:0.89

42.6

Ø1 50 IL4 2.1 9

5 41

D:0.54

D:0.79

E(B) C(B) E(B)

1 0.3 IL4 25 Ø2

42.6

Ø150 IL41.96

D:0.75

D:0.38

42.4

42 .8

42.6

42 1

D:1.0

5 D:1.35

UNP 42

D:0.92

D(D)

Ø100 IL42.37

IL42.34 Ø150

D:0.76

D:0.59

C(B)

D(D)

UNP D:0.35 42

D:1.0

G(B)

42.4

UNP D:0.47

42 .6

D:0.42

42 .6

6 D:0.56

.9 41 4 .9

42 .5

.8 9 41 .8 7

42.4

D:1.1 42 .5

.4 8

D:0.75

Ø1 IL4 00 2.0 6

42.2 42.4 42.6

42.6

42.0 42.2 42.4 42.6

Ø150 IL41.97

IL40.84 Ø225 41 IL40.93 41.82 41 .8 .84 2

41 41 .8 41 8 41 .89 .8 9

E(B) C(B)

C(B) C( B)

42.4 42. 2 4

42.0 42.2 42.4 42.6

Ø225 IL40.80

Ø100

C(B) 42

IL42.18

.6 0

D:0.37

42 .4

.4 428 .4

3 42.4

MH 8 D:0.64

D:0.83 D:0.59 D:0.66

D:0.79 D:0.65

D:0.45 IL41.50 Ø300

D:0.58 4 .0 43

0 15 7 Ø 41.7 IL

Ø100 IL41.84

.4 4

42 42 .44 .4 3

42 .4

D:0.310

42.4

.5 6

.4 0

D:0.37 Ø150 IL41.96

42.4

D:0.62

42.8

42 8

.5 5

IL41.49 Ø300 D:0.88

UNP .2

D:0.59

G(B)

D:0.55

.4 0

42 .8 42.8 42.6 42.2 42.4 42.0

IL41.38 Ø150 2

D:0.64 D:0.5

42.2

7 1.7 IL4 00 Ø1

42.2 42.2

42.6

D:0.9

IL41.77 Ø150

42.8

IL41.47 Ø150

IL41.87 Ø150

Ø225 IL41.06 3 D:1.08

D:0.5

D:1.11 D:1.11

42 .2

D:0.7 .3

D:0.9

D:0.99

D:0.96

Ø225

42.6

D:0.55 42 .2

D:1.29 D:0.81D:0.38 D:0.84

E(B) E(B)

3 D:1.33

42 2

IL42.35 Ø225

43.0 43.2 43.4 43.4 43.2

D:0.65 D:0.36

C(B)

G(B)

.8 7 42

D:0.81

D:0.3

44.0 44.0 43.4 43.6 43.8

E(B) E(B)

.0 6

CMP .3

D:1.2

1 D:1.29

.2 1

43.2

41 41

41.8

D:0.84

43.

G(B) D

43.

43.0 43.2 43.4 43.4

Ø225 IL40.99 .0

D:0.6 42

D:0.7

GAP

C(B)

IL41.76 Ø150

42.6

D:0.9 D:0.9

D:0.3

IL41.35 Ø150

Ø100 IL41.77

Ø150

D:0.75 D:0.65

D:0.76

50 Ø1 .34 IL41

41 41

42.2 42.4 42.0

D:0.76

D:0.36 D:0.67

IL42.57 Ø100

50 Ø1 1.41 IL4

42.8

1 IL42.4 Ø100

42 .2

42 42 .4 8.4

42 .4 5

43 .9 8

.8 42 .8 5 42 .8 8

IL42.21 42Ø150 .8 5

IL42.45 42 Ø100 .8 6

43.0

43 .9 8

E(B)

44.2 43.2 43.4 43.6 43.8 44.0 43.0

44.2

44.0

IL43.53 Ø100

IL43.67 Ø100

44.0

Ø100

44.0 44.0

IL43.59

Ø100

44.0

IL43.79 Ø100

IL43.62 Ø100

Ø150 IL42.88

Ø300 IL42.35

42.8 42.6

IL41.46 7 D:0.49 42

D:0.97 2

D:0.59

D:0.54

42.0

MH .4

D:0.78

D:0.65

IL43.44 Ø100

CMP D:0.79 IS 3

D:0.9

D:0.8

D:0.24

C(B)

GP IL43.27 Ø150

Ø300

C(B)

8 D:0.89

C(B)

42.0 42.2 42.4 42.6

IS 42

D:0.7

D:0.51

6 D:0.85 3

44.0

.3 1

D:0.56 D:1.1

1 .8 2 .8 42

.8 .9

44.0 44.0 44.0 44.0

IL43.46 Ø100

42.6

42.4 42.6

IL43.69 Ø100

43.8

E(B)

42 43

UNP

43.2

GP UNP

IL43.63 Ø100

IL43.45 Ø150

D:0.5.46 42 GP

D(D)

.4 8 D:0.81 WSP

D(D)

UNP

D:0.88 0 .8 42

D:0.54 GP

G(B)

H IL43.32

43.6

7 4 .2

D:1.5

D:0.74

3 D:0.49 EOT

E(B)

.4 3 D:0.91

D:0.7 D:1.07 D:0.59

Ø100

0 4 Ø1542.5 IL

.7 8 .9 42

D:1.08

D:1.35 D:0.8

C(B)

42.4 42.6 42.8

2 .9

43.6 43.4

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42.8

.0 .4 .6 .2 42

41.8

42.6

RIVET

.6 42

43.0

42 .4

D:0.69

D:1.42

42.6

E: 133210.12 N: -147090.13 RL: -122.36

D:0.22

D:EOT

UNP 5

D:0.85

D:1.07

D:1.3

42.6

41 3

42.6

42 .9

E(B)

43.0

.8 43

41 6

IL42.14 Ø150 IL42.10 GP Ø150

44.2 44.0

44 .0 4

43.6

IL43.31

44.0

43.0

43.2

43.4

43.8

IL43.33 Ø100

IL43.26

43.8

D:1.19

D E(B)

D:0.25 D:0.84

D:0.74

D:0.25

43.8

44 42

D:0.69

D:0.74

IL42.56 Ø100

E(B) E(B )

43.8

CONC. NAIL

IL42.02 Ø100

43.0 43.2

D:0.94

E: 115786.19 N: -182915.86 RL: -516.70 D:0.56

E( C(B) E(BB) ) GP

E(B) E(B )

42.0

IL41.36 Ø300

5 8

42.6

42 8 .4

D:0.55 5

.5 .8 Ø100

5 IL42.6 Ø225

42.2

42 42

C(B) D:0.95 D:0.67 D:0.69

D:0.96

D:0.56 6 D:0.35 .5 42 3 D:0.82

42.8

D:0.88 D:0.64 D:1.04 Ø300

.5 .8

3 D:0.67

IL41.35

UNP

E(B) E(B )

E(B ) C(B E(B) ) 3

E(B) E(B )

UNP 5 D:0.87

D:0.63 D:0.45 D:1.0

D:0.94

D:0.55

UNP .8

E(B) E(B )

4 D:0.92

IL42.50 4 .8 Ø100 42 GP D:0.8

D:0.92

D:0.97

IL42.40 7 D:0.8 Ø100

E(B)

43.2

D:0.55 D:0.6 Ø100 IL41.57

D:0.58 9 D:0.55

C(B)

UNP 4 MH

IL43.17

E(B)

UNP 42

Ø100 .1

IL42.36 Ø150

D(B)

41 3 42 42.4

IL43.30

Ø100

E(B)

D(B)

D:0.64

E(B) C(B)

E(B)

D:0.68

C(B)

4 44.0 43.8 43.6 43.4 43.2 43.0 42.8

E(B) C(B)

IS 42.6

UNP IL41.57 Ø150

.6 .4

IL42.90 Ø150

.0 44

0 44.0 44.2

.41 IL43 100 Ø

41 42

.15 IL43 0 Ø15

42.4

44.0

IL43.16

RL: 1232.59

IL43.17 Ø150 44.0

WSP

IL43.56 Ø100

D:0.44 EOT

44.0

D:0.4

43 3 .9

D:0.53 EOT

.8 7

D:0.31

D:0.78

.9 6

WSP GP

D:0.36 D:1.14

43.2

GP GP GP

43.6

43 .8

43 .6 6

UNP

UNP IL43 .38 Ø15 0

D(D)

42.6

44.4

43.4

CMP

44.0

44.0 44.044.0 44.0

43.8 44

43 .8

43.8

.4 4 D:0.58

D:0.48 42. 6

UNP

UNP 44 .0

CMP

UNP

43.4

UNP

43.4

NAIL

UNP

MS UNP

D:0.82

D( D) UNP

UNP

43.4 43.4

43.6

43.8

43.8 44.0 44.0

D:0.2 D:0.4 D:0.8

D:0.8 IL42.92 Ø100

UNP

D:0.9

CMP

NAIL

) D(D 29 C(B) D(D

E: 356637.70 N: -308714.96 RL: 43.56 D:0.9

D:0.9

UNP D:0.6

D:0.60

D:0.5 D:0.4

D:0.4

C(B) C( B) D:0.70

D:0.80

42.8 42.8

42.8 42 .6 43 .8 .0

42.8 43.0 43.2 43.2

42.8 42.8

UNP

42 .8 1

42 .8

UNP UNP UNP

MH UNP

UNP

42.2

42.0 42.0

42.2 42.4 42.6 42.8

43.0 42.8 42.6

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42 .6

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42.8

42 .6 42.6

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D(D D(D

D(D )

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D(D 42.0

/ 42.6 42.4 42.2

/ UNP

D(D

43 .1 43.4 43.6

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D(D)

42.6 44.0

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D(D)

43.4 43.6 43.8

UNP

D(D ) IS

)

43.6 43.0 43.2 43.4 42.8

UNP 42 .2

D(D ) 41

42 .0

) 41.6

D(D

44.0

44.2

UNP

UNP UNP

IS 42.4

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42.4

D(D)

43.8

UNP

44.0

D(D)

44.0

42 .4

43.8

44.0

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D(D)

43.8 43.8

43.6 43.8 44.0

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43.4

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D(D )

)

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D(D)

44.0 44.0

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42 .8

43.6 43.0 43. 43.4 2

43.0 43.2

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D(D)

42.6 42.6

42.4

43.4 43.6 43.8

43.8

43.4 43.6 43.8

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43.4 43.6

43.0 43.2 43.4

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43. 4

43.6

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43.4 43.4

43 43.8

43.2

42.8

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) 44.0 43.8 44.0

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43.6

42.6

42.0 42.2 42.4 42.6

43.8

43.4

43.4 43.6

42.6

43.8

43.4

43.8

43.6

43.0 43.2 43.4

43.6 43.8 44.0

43.8

D(D)

Roof Line Over 43.4 43.6 43.8

43.2

43.4 43.2

UNP 42.8

43.2

43 43.4.4 43.6 43.4

42.8 43.0

D(D)

43.

MH 43.4 43.6

42.8 43.2 43.0

43.2

43.0 42.8

43.6

43.2 43.2

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D(D)

Over

Screen Line

D(D)

43.4

D(D)

42.8

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D(D)

D) D(

41.8

43.6

43.2 43.0 42.8 42.6

D(D) 43.6

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42.8

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42.

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42.6

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42.2

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42 .8 42.8 42.2 42.4 42.6 42.0 42

43 42.4 .0 .2 .8

42.6

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D(D) 41.310_

UNP 42.2

D(D)

43.4 43.6 42.8 43.0 43.2

4343.4 43.0 43.2 43.2 43.4 .4 0

D(D)

UNP 42.6

D(D)

43.0

43.0 43.0

42.8

43 42.2 42.4 42.2

D(D)

44 .2

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D(D)

42.8

UNP

Over

D(D)

42.6

UNP

D(D)

4 42.8 42.8

Building Line

42.2 42.4

D(D)

43.2 43.0 42.8

43.6

42.6

42.8

43 43.4 43.6 43.0 43.2 43.4 43.6 42.8

43 .1

42.8 43.2 43.0

43.0 43.2

42.6

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43.2 43.0

42.8 42.8 43.0 43.2 43.4 43.6

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42.6

40.6 40.4 41.0 40.8 41.2 41.4 41.8 42.6 41.6 42.0 42.2 42.4 42.8 42.8

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D(D)

9 42.7 42 7 .7 7

43.0 43.2

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42.8

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42.8

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42.8 43.0 43.2

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D( D)

42.8 42.8

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42 .8 42.8

43.4

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42.8 4242.8 .8 9

43.2

43.4

42.8 43.0

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42 42.8

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42 .8 42 5.8 4242.8 4 .8 4

42 42

42 .4 42.6 42

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40.4 40.6 40.8 41.0 41.2 41.4 41.6 41.8 42.0 42.2

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42.4

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42 42 .7 .7 2 2

42.2 42.4

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42.6

42.

42.2 42.4 42.8 43.0 43.4 43.6 42.6 43.2

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42.8

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42.6

42.2 42.4

42.6 42.6

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UNP

42.6

42 .7 3 4242 .7 .7 23

42.6 42 42

42.8

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42.6

42.4

42.6 42.6

42.6 .7

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42 .7

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42.8 42 42.8 .9

D(D)

42.4

42.2

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42 42 .8 .7 9

42.6

42.8 43.0 43.2 43.4 43.6

42.0

42.6

42 .8

42.8

43.2

42.2 42.4 42.6

42.4

MH 43.4

43.2

UNK(B)

43 .0

43.8

43.2 43.4 43.6

42.8

43.

43.0 43.2 43.4 43.4 43.4

43.2 43

42.6

42.8

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41.8

UNP 42.8 43.0 43.2 43.4 43.6

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43.0

42.4

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42.4

42.8 42.6

43.0 43.2 43.4 43.6 42.8

42.2 42.2

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42 .2

42.0

42.6

42.4

/ /

42.0 42.2 42.4 42.6

42.4

UNP 42.4

UNP

42 .6

43.2

42 .4

43.2

42.6

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IS IS

43.4

42.6 42.8

D(D)

42.2

42.4 42. 2 4

UNP

43.8

D:0.73 43

43.2

42.4 42.6 42.8

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D(D)

42.2

41.8

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42.6

43.0

42 .2

UNP 40.8 41.0 41.2 41.4 41.6 41.8 42.0 42.2 42.4

41.4 41.6 41.8 42.0 42.2 42.4 42.6 41.0 41.2 40.8 42.8

44.0

42.2 42.4 42.6

43.6

42.2 42.4 42.6 42.0

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43.2

44.0 43.8 43.6 43.4

42.8 42.8

4 42

42.8

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43.8

42.6 42.8 43.0

D(D)

UNP

43.6 43.8 43.2 43.4

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IS 42.6

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42 42.0 42.2 42.4 42.6

42.8 43.0 43.6 43.4

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42.6

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42.8

43.2

42.6

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4 42.0 42.2

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42.0

43.8

42.2

43.8

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43.2 43.2

42.4

43.0 43.2

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D D

UNP

D(D)

43.0

44.0 43.8 43.6 43.4 43.2 43.0 42.8

44.2 43.2 43.4 43.6 43.8 44.0 43.0

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D(D)

44.0

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44.0 44.0

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42.6

42.4 42.6

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43 42

42.4 44.0 44.0 44.0 44.0

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43.6

43.4

43.2

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43.2 44.0 43.8 43.6 43.4

UNP

UNP IS

43.2

UNP

UNP 43.6

42.2 42.4 42.0

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43.6

43.8

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42.4

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D(D)

42.6

43.8

44.0 44.0

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43.4 43.0 43.2 43.4 42.8 42.6

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44.044.0

44.0 44 .0

44.0 44.044.0 44.0

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43.8 43.6

43.0 43.2

42. 6

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OUTLINE OF TERRACE OVER UNP

UNP

) MS UNP

D( D) UNP

OUTLINE OF TERRACE OVER

43.6 43.8 44.0 44.0

44 .0

UNP UNP

43.4

UNP

42.6

43.0 42.8 43.4

42.2

UNP

GIANT

CRAB

NEW THEME PARK OPENS AT UNIVERSITY OF MELBOURNE, PARKVILLE, VICTORIA

Studio 5_2020_Gillian Ashley_#107259_Asst1_Concrete Lawn_Site Analysis

EATS

STUDENT

42.4

44.0

UNP 44.0

44.0

UNP

44.0 44.0

42.4

42.4 42.6

42.6

44.0 44.0 44.0 44.0

44.2 44.0

44.0

Early site development and flow-through-testing ideas

44.0

memorial theme park

42.4

44.0 43.8 43.6 43.4 43.2 43.0 42.8

43.0

44.0 43.2 43.4 43.6 43.8 44.2 43.0

44.2

44.0

43.0

UNP

43.2 43.2

42.4

43.2

42.6

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44.0 44.0 43.4 43.6 43.8

4 MH 42.1

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UNP

43.6 43.8 43.4 43.2

42.2

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43.2

44.0 43.8 43.6 43.4

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42.4

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42.6

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43.2 43.4 43.6

43.8

43.2

UNP

44.0 43.8 43.6 43.4

43.2

UNP

D UNP

43.8

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UNP

43.2

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43.2

43.4

42.6

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42.6

43.4

43.6

42.6

43.2

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D 43.2

D:0.73

UNP

42.8

43.6

42.8

42.2 42.4 42.0

43.0 43.2 43.4

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43.8

43.4 43.6

42.0 42.2

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43.6

43.4 43.6 43.8

43.6

43.8

43.6

43.8

43.6

43.8

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43.4 43.6 43.8

43.8

42.2

43.8

43.8 43.0 43.2 43.4 42.8

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43.8

43.4

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43.8

42.6

43.4

42.4

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43.6 43.0 43.2 43.4

42.8

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44.0

D(D)

43.4

43.6 43.8 44.0

D(D)

44.0

D(D)

44.044.0

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44.0

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44.0 44.044.0 44.0

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D(D)

43.8

D(D)

43.4 43.6 42.8 43.0 43.2

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43.7

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43.7

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44.0

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42.7

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42.6

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43.7

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42.4

43.3

44.0

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43.4

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43.7

D(D)

43.0 42.8

42.6

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42.8

42.8 43.0 43.2 43.4 43.6

43.4

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MH 43.0 43.2 43.4 43.6 42.8

43.7

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. GIANT

CRAB

EATS

STUDENT

Concept Statement New WSUD Ecological Garden opens at University of Melbourne, Parkville, Victoria: “The cological arden is less about portra al than process and obser es the interaction of forces with substance researching deli ering memorialising and sometimes idealising change arri al and impact e ents o er time

Isamu Noguchi - The Cultural Landscapes Foundation anha an

Ecological Garden

Zones:

S’’

Precedent

Master Plan

a Proposed STEM Building

Program:

Isamu Noguchi - the Sunken Garden at the Beinecke Rare Book & Manuscript Library, Yale University

New open marketplace / parking

ippsland Plains ndigenous ora linking to remnant Eucalyptus camaldulensis

Studio Vulkan - Park Naturmuseum, St Gallen

Historic gothic-revival theatre folly with seasonal pop-up holographic memorial theme park generator

ugmann anotta - Park am Nordbahnhof Berlin

Cafe seating

Gallery

Sun Ribbon sculpture by Inga King

Andrew Laidlaw - Royal Botanic Gardens, elbourne

h f

Dry Lake Plaza (open program) with volunteer ecology research construct and thermal masses

ugmann anotta - Park am Nordbahnhof Berlin

Ancestral biome walk

Theatre ruins folly

C Creekline rass filtration ponds

i k

oodland

mnosperm escarpment

Ephemeral escarpment ‘tar pits’ Melbourne School of Design

P l

io swale ribbons

l m

o p

‘salt at’ olunteer ecolog a ractor Thermal mass #1 olunteer ecolog abstract

q Raymond Priestly Building

s q

rain line ubterranean hort finned el migration route S’

Scale 1:400 @A1 Studio 5_2020_Gillian Ashley_#107259_Asst2_Concrete Lawn Wetland_Master Plan

9 4 a

C Plains rass etland linking to remnant Eucalyptus camaldulensis with culvert linking south

13 12

Memorial lawn with rollable memorial

ulti trophic permaculture arra

f Baldwin Spencer Building

phemeral tar pits and debris field

EVC #934 Brackish Grassland

Xeriscape garden

d e

Macro-algae aquaculture research & development

Ginkgo escarpment

c 14

aloph tic roof wetland Apiar

esic rainforest st led partl on C et Forest Forest retention ponds

. GIANT

CRAB

EATS

STUDENT

...

... GIANT

CRAB

EAT Rampaging giant A.I. crab incident

perience of place shared b

urund eri people traditional custodians

1930’s lake constructed at Parkville campus ’s e isting wetland habitat recorded b newcomers 10-12,000 years ago - End of last ice age, ancestral biome develops 33,000-50,000 years ago - Indigenous Australians share Gondwana with prehistoric mega-fauna 66 million years ago - End to the Cretaceous period following an asteroid impact (dinosaurs die out, inkgo persists organic ma er lays the foundation for present-day peat, coal, tar and bitumen) 419.2 million years ago - Massive e tinction e ent marks the end of ilurian period following ma or climate factors (organic ma er la s the foundation for present da sandstone in Park ille)

Raymond Priestley Building

Melbourne general cemetery Tin Alley

Section Elevation s’ - s’’

you are here

... First owering of the Giant Crab Eats Student holographic theme park nknown time frame to first ecological olunteer arri al on the r ake Pla a test piles

Giant Crab Eats Student – Theme Park Panorama

Event Calendar

Tin Alley

Raymond Priestley Building

Melbourne general cemetery

Section Elevation s’ - s’’ 6 Leaves of Sustainability 10

m n

C O

#68

#125

Consultation with urund eri traditional owners on Nabunum waterfall installation Provision of linked natural spaces and accessible walking/cycling/market and recreation spaces emorial e perience Biophyllic seasonal artwork & installation event linked to old theatre e ent space New integrated cafe pla a social space

A S W

Scale 1:800 A

ducation

Gallery

Remembrance

Bikes

Food

Market

eating

Art

Consultation

Nature

Walking

O Open space

N A

#934

Re-use building rubble and e isting site materials

Reduce energy waste through environmental controls such as

Waste Waste water treatment in place for re-use in landscape and potential non-potable water systems of the new T building

A N

Community

Water

Energy

Recycled water, waste water treatment and re use on site Zero mains potable water use e ternall Clean output Appropriated northern catchment through new pipe line of main site ow water use plantings e cept where bio swale TPA filled with bore water, ground-water recharge s stem in place

eneration and application of alternati e clean power sources using photovoltaic roof cells and scaffolding wrap Carbon footprint ad anced mitigation through carbon se uestration of plants and soils + broader proposals of macro-algae a uaculture (multi trophic permaculture array MTPA) for global negati e carbon

Scale 1:800

Studio 5_2020_Gillian Ashley_#107259_Asst2_Concrete Lawn Wetland_Master Plan

Ecosystems

Re-use building rubble and e isting materials

Protect and enhance nati e ecos stems with a ention to the C relating to historic pre-contact Eucalyptus camaldulensis.

Retain or transplant e isting trees

Bore

Xeriscape

Sediment trap

Groundwater recharge

New stormwater drain northern catchment 15H

Pond

Flow Rainwater harvest

Clean H20 exit

Recycled H20 irrigation

Gross pollutant trap

isting solar panels

Solar thermal gain

New solar panels (kw)

Passive cooling

Photovoltaic wrap (kw)

Pollen sensor + holographic artwork emi er s stem

er ow al e

Pump

P Parking

Materials

Holding tank

ighting

Ultra-violet light sterilisation

Link materiality to site ecologically, culturally and historicall Engage materials as process not ob ects se thermodynamic design to interact with social sphere (hand warmer cooler)

Scale 1:800

934

Pro ide for local positi e biodiversity and ecological opportunit more broadl

Recycled materials

Interact with ecosystem drivers as process and design protagonist

Retained ora

hort finned Eel habitat support

Major trees transplanted

Australian Blue-banded Bee habitat support

Introduce woody wetland bio-swales to maxmise carbon capture and ph toremediation potentials

General habitat support

Honey Bee apiary

EVC habitat #934 Brackish Grassland

Culvert at start and end of daylit drain system

# 125 EVC habitat #125 Plains Grassy Wetland

# 68 EVC habitat #68 Creekline Grassy Woodland

Ph toremediation bio-swales

ulti trophic permaculture array / Macroalgae aquaculture research + display

interval

NEW THEME PARK OPENS AT UNIVERSITY OF MELBOURNE, PARKVILLE, VICTORIA

NEW THEME PARK OPENS AT UNIVERSITY OF MELBOURNE, PARKVILLE, VICTORIA 2

2 2

Old Theatre Building debris Polished black granite ephemeral bubbler (lensing effect) Flamed black bluestone ‘tar pit’ with water sheet Concrete footing with holding tanks Flamed black bluestone retention edge

CO2 CO2

H2O

CO2

2 2

Woody bio-swale

‘Tar pit’ & debris field

Bio-swale

WSUD holding tank

Acoustic

Acoustic waterfall

1:200 ‘Tar pit’ & debris field

2 2

CO2

CO2 CO2

CO2

CO2 CO2

2 2

H2O

CO2 CO2

CO2

CO2 CO2

H2O

CO2 H2O

H2O

CO2

H2O

CO2 H2O

H2O

CO2 H2O

H2O

Acoustic

1:200

Sub-soil depression

ub soil depression

olding tank

Holding tank

Polished black granite ephemeral bubbler (lensing effect)

Holding tank Concrete footing with holding tanks Flamed black bluestone retention edge

‘Tar pit’ & debris field

Acoustic waterfall echo chamber

42 .6

42 .6 42.34

42.4 42.13

42.18

42.15

42.14

42.01

42.03

42.02

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42.03

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42.52

PRODUCED BY AN AUTODESK STUDENT VERSION

zoom-mark-up fun-times

layer-state + background settings fun-times

squint-testing in thumbnail view

interval

Seats please...

Giant Crab Eats Student by Gillian Ashley

Master Plan

. GIANT

CRAB

EATS

STUDENT

Concept Statement: Ecological Garden New WSUD Ecological Garden opens at University of Melbourne, Parkville, Victoria: “The Ecological Garden is less about portrayal than process, and observes the interaction of forces with substance, researching, delivering, memorialising and sometimes idealising change, arrival and impact events over time.” Precedent Isamu Noguchi - The Cultural Landscapes Foundation, Manhattan

Master Plan

Zones:

Program:

g 1

Isamu Noguchi - the Sunken Garden at the Beinecke Rare Book & Manuscript Library, Yale University

New open marketplace / parking Gippsland lains ndigenous ora linking to remnant Eucalyptus camaldulensis

Tin Alley

Historic gothic-revival theatre folly with seasonal pop-up holographic memorial theme park generator

Studio Vulkan - Park Naturmuseum, St Gallen

alophytic roof wetland

7 Fugmann Janotta - Park am Nordbahnhof, Berlin

Ephemeral tar pits and debris eld

Andrew Laidlaw - Royal Botanic Gardens, Melbourne

Memorial lawn with rollable memorial

Dry Lake Plaza (open program) with volunteer ecology research construct and thermal masses

Fugmann Janotta - Park am Nordbahnhof, Berlin

4 a

EVC #934 Brackish Grassland

Multi trophic permaculture array

Baldwin Spencer Building

E lains Grassy etland lin ing to remnant Eucalyptus camaldulensis with culvert linking south

Gymnosperm escarpment

ree line Grassy ltration ponds

oodland

io swale ribbons

Ephemeral escarpment ‘tar pits’

Melbourne School of Design

salt at

m p1

ncestral biome wal Theatre ruins folly

P l

rain line ubterranean hort nned Eel migration route

olunteer ecology attractor

, ,

Thermal mass #1

olunteer ecology abstract

Raymond Priestly Building

Mesic rainforest styled partly on E et Forest

Forest retention ponds

r s n3

Scale 1:400 @A1 Studio 5_2020_Gillian Ashley_#107259_Asst3_Concrete Lawn Wetland_Detailed Plan

6 10

Xeriscape garden

Gallery Sun Ribbon sculpture by Inga King

afe seating

Ginkgo escarpment

3 6

piary

Macro-algae aquaculture research & development

Proposed STEM Building

f 4

Masson Road

...

... GIANT

CRAB

EAT Rampaging giant A.I. crab incident

E perience of place shared by

urund eri people traditional custodians

1930’s lake constructed at Parkville campus s e isting wetland habitat recorded by newcomers 10-12,000 years ago - End of last ice age, ancestral biome develops 33,000-50,000 years ago - Indigenous Australians share Gondwana with prehistoric mega-fauna 66 million years ago - End to the Cretaceous period following an asteroid impact (dinosaurs die out, Ginkgo persists, organic matter lays the foundation for present day peat, coal, tar and bitumen) 419.2 million years ago - Massive e tinction event mar s the end of ilurian period following ma or climate factors organic matter lays the foundation for present day sandstone in ar ville

you are here

... First emergence of the ‘Giant Crab Eats Student’ holographic memorial theme park ... n nown time frame to rst ecological volunteer arrival on the ry a e la a test piles

Panorama:

‘Giant Crab Eats Student’ Ecological Garden

Memorial Theme Park

Event Register

onnective andscape

Melbourne General Cemetery Raymond Priestley Building

Gestural Study:

Concrete Lawn

Tin Alley

Elevation

Landmark Relationships

6 Leaves of Sustainability 10

m n

C O

#68

#125

O N

Community onsultation with urund eri, traditional custodians, on Nabunum waterfall installation. Provision of linked natural spaces and accessible walking/cycling/market and recreation spaces. Memorial e perience. Biophyllic seasonal artwor installation event linked to old theatre event space. New integrated cafe pla a social space. Engagement with broad historical site conte t.

Re-cycle elements of site condition development phases through time.

A S W

Scale 1:800 A

Art

Education

Gallery

Remembrance

Bikes

Food

Market

eating

C onsultation

Nature

Walking

O Open space

N A

#934

Re-use building rubble and e isting site materials.

Reduce energy waste through environmental controls such as passive cooling and humidity e change.

Waste Waste water treatment in place for re-use in landscape and potential non-potable water systems of the new TEM building.

A E

Water

Energy

Materials

Ecosystems

Recycled water, waste water treatment and re use on site. Zero mains potable water use e ternally. lean output. Appropriated northern catchment through new pipe line of main site. ow water use plantings e cept where bio swale. MT lled with bore water, ground-water recharge system in place.

Generation and application of alternative clean power sources using photovoltaic roof cells and sca olding wrap.

Re-use building rubble and e isting materials.

Protect and enhance native ecosystems with attention to the E relating to historic pre-contact Eucalyptus camaldulensis.

Carbon footprint advanced mitigation through carbon se uestration of plants and soils + broader proposals of macro-algae a uaculture multi trophic permaculture array MTPA) for global negative carbon.

Scale 1:800

Retain or transplant e isting trees.

Bore

Xeriscape

Sediment trap

Groundwater recharge

New stormwater drain northern catchment 15H

Pond

Flow Rainwater harvest

E isting solar panels

Solar thermal gain

New solar panels (kw)

Passive cooling

Photovoltaic wrap (kw)

Pollen sensor + holographic artwork emitter system

ver ow valve

Clean H20 exit Pump

P Parking

Recycled H20 irrigation

Gross pollutant trap

Holding tank

ighting

Ultra-violet light sterilisation

Link materiality to site ecologically, culturally and historically. Engage materials as process not ob ects. se thermodynamic design to interact with social sphere hand warmer cooler .

Scale 1:800

934

rovide for local positive biodiversity and ecological opportunity more broadly.

Recycled materials

General habitat support

Interact with ecosystem drivers as process and design protagonist.

Retained ora

hort nned Eel habitat support

Major trees transplanted

Australian Blue-banded Bee habitat support

Introduce woody wetland bio-swales to maxmise carbon capture and phytoremediation potentials.

Honey Bee apiary

EVC habitat #934 Brackish Grassland

Culvert at start and end of daylit drain system

125 EVC habitat #125 Plains Grassy Wetland

# 68 EVC habitat #68 Creekline Grassy Woodland

hytoremediation bio-swales

Multi trophic permaculture array / Macroalgae aquaculture research + display

. GIANT

CRAB

EATS

STUDENT

Concept Statement: ‘Giant Crab Eats Student’ Memorial Theme Park This is the story of a theme par that arose in this location due to a terrible tragedy. lease disable your ad bloc er to continue as the availability of this content relies on your sub ectivity. The story continues hen in the summer of , a sentient giant crab went rampaging through the niversity of Melbourne s ar ville campus oncrete awn”, so described, and lives were lost. Engineered from high

organically based nano cells, based on the design of the evoltech red clawed crab gurine, designed by Bome for the action gure company Kaiyodo original limited edition action gure produced in

News Clipping

Master Plan

Events:

iii

(Photos by onlooker)

BREAKING NEWS: The University of Melbourne Parkville campus was recently besieged by a giant A.I crab! It rampaged through the Concrete Lawn area, destroying the heritage listed gothicrevival theatre building and terrifying visitors to the campus. The giant crab, killed one student and maimed many during the sudden rampage. It is said that the iSentient-level artificial intelligence organism produced by Kaiyodo broke containment without provocation. A memorial service for the lost student will be held in the weeks to come.

Memorial theme par generator. A pollen sensor is calibrated to the Carbobrotus spp. growing in the theatre ruins. Following the sensor being tripped, the hologram appears for a 24 hour period. The sensor and hologram are powered by power generation from photovoltaic wrapping of the new STEM building. ponsored by Nike. , a nested holographic artwork by Gillian Ashley Studio featuring Fostoria dhimbangunmal in a vernacular landscape, sponsored by the Goodyear Tire & Rubber Company (Product disclaimer: Zeppelin is display only).

nteractive rollable memorial wreaking ball with holographic wreath and lawn squiggle-wake, sponsored by Industrial Wrecking.

, a nested holographic artwork by Gillian Ashley Studio, sponsored by the University of Melbourne (MSD). (Product disclaimer: Students in the ride are display only).

Tin Alley

C i

P D E

, waterfall mega-pipe, a nested holographic artwork by Gillian Ashley Studio, sponsored by Reece Plumbing in consultation with Wurundjeri people.

E iii

Scale 1:400 @A1 Studio 5_2020_Gillian Ashley_#107259_Asst3_Concrete Lawn Wetland_Detailed Plan

Masson Road

Design Details

. GIANT

CRAB

EATS

STUDENT

Concept Statement: Memorial Theme Park + Volunteer Ecology Garden The memorial theme par see s to wor within broad hori ons of and ecological patterns to develop the oncrete awn within the parameter of wetland. The principle of creating a forum for volunteer ecology is expressly not equal to that of echo chamber - or - this forum is an echo chamber of the most comprehensive type. Global ecology echoes. The ry a e la a is a primordial abstract reduction of things to their basic forms and constituents, building landscape through the alchemical interaction of its constituents. The piles see the gra of the ctional with the real, ta ing the un nown, a theory, a guess, a ction, and here splicing it into reality on it s own terms. Detail Plan

hemeral ar P Plan ng bbon o- ale: a11

Precedent Key: 1

Isamu Noguchi - The Cultural Landscapes Foundation, Manhattan

j13

Grasses + Sedges Baumea juncea Baumea rubiginosa Carex appressa Eleocharis acuta Gahnia radula

d8 D1

Isamu Noguchi - the Sunken Garden at the Beinecke Rare Book & Manuscript Library, Yale University

j11

Triglochin procera 5

Groundcovers, Herbs, Ferns + Perennials Acena nova-zealandiae Hydrocotyle pterocarpa Lobelia anceps Lythrum salicaria Mentha australis Persicaria dicipiens

a6 6

Studio Vulkan - Park Naturmuseum, St Gallen

Key Materials: j8

Emergent shrubs

Old Theatre Building fragments + debris (yogurt sprayed)

olished uper white Travertine cone abstracts

Xeriscape: Groundcovers Carpobrotus rossii

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Cactus (ethical source) Carnegiea gigantea Stenocereus thurberi Studio 5_2020_Gillian Ashley_#107259_Asst3_Concrete Lawn Wetland_Detailed Plan

Scale 1:200 @A1

hambon Travertine cobble suspended over water in a steel framework

et Flamed asalt lac Bluestone Tar Pit surface

Crushed concrete + brick debris Volunteer Piles

olished et lac Granite Tar Pit bubblers

... Section Elevation:

... GIANT

CRAB

EAT

Scale 1:200 @A1

D1:

Ephemeral Tar Pits

D2: Volunteer Pile #1

D3: Echo Chamber

Dry Lake Plaza paving detail: h8

radial layout Plaza paving

Pooling surface water in microtopographic shallows

Scale 1:100 @A1

‘Highland Slate’ Plaza boulders

Panorama:

Ephemeral Tar Pits

Dry Lake Plaza

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Gold mine rubble pile to be taller than Great Pyramid of Giza oronavirus is signi cant, but is it a true blac swan event The Architecture of Chernobyl: Past, Present, and Future – Free Download Architectural Cad Drawings First

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