Mt. Barker Winery

Page 1

Contents a2 a3 a4 a5 a6 a7

Date/ Client/ Designed/ Class/

March 2014 Marco Vittino Mitchell Cook ARCT 3030

site plan ground floor plan first floor plan northern elevation section AA conceptual render

Drawing/

Schematic Design/

Contents

a1

Mt Barker Winery W.A.

COOI< 20942043@students.uwa.edu.au


1

165

165

5

2 170

14

3

Axis of Contour Change

170

16 15

12

9 11

16

175

13

8

10

175

7

6 180

4 180

Legend: 1 Hay River 2 Existing Dam 3 Pump Room 4 Existing Access Road

5 6 7 8

Vineyards Public Access Road Carpark 20 Bays Public/Admin Building

9 10 11 12

Tasting Alfresco Terraced Amphitheatre Production Buildings Fruit Receival Area

13 14 15 16

Service Access Road Washdown Area Dispatch Building Services

Date/ Client/ Designed/ Class/

March 2014 Marco Vittino Mitchell Cook ARCT 3030

Drawing/

Schematic Design/

Site Plan 1:1000

a2

Mt Barker Winery W.A.

COOI< 20942043@students.uwa.edu.au


170

28

32

37

31

36

A

30

38 33

32

27

39

34 00

171.0

170

29

00

171.0

32

12

13 35 26

24

32

18

41

20

17

22

12

7

9

36

32

171.000

8

5

11

16

5

171.500

10

15

7

6

175

19 172.000

21

14

4 13

7

23

A

172.500

3

25

173.000

2

175

1 176.000

180

Legend: 1 Carpark 20 Bays 2 Public Access 3 Wine Library 1 4 Wine Library 2

5 6 7 8

Distribution Room Thermal Buffer Corridor Storage Main Entry / Tasting

9 10 11 12

Cellar Master’s Room Public Toilets Tasting Room Tasting Alfresco Area

13 14 15 16

Rainwater Tank Small Water Heater Generator Transformer

17 18 19 20

Garbage Bin Recycling Bin Terraced Amphitheatre Barrel Room 1

21 22 23 24

Barrel Room 2 Laboratory 1 Laboratory 2 Tank Room

25 26 27 28

Service Access Fruit Recieval Area Crush Pad Wash-down Area

29 30 31 32

Crusher De-stemmer Fruit Bin Storage LP Tank

33 34 35 36

Bottling Room Machine Storage Case Storage Fire Hose

37 38 39 40

Large Water Heater Chiller Fire Pump Room Booster Hydrant

Date/ Client/ Designed/ Class/

March 2014 Marco Vittino Mitchell Cook ARCT 3030

Schematic Design/

Drawing/

Ground Floor Plan 1:500

a3

Mt Barker Winery W.A.

COOI< 20942043@students.uwa.edu.au


170

F a ll

A

15 F a ll

14

13

170

12

F a ll

9

1 8

4

11 23

2

3

10

5

175

Fa ll

7

A

6

175

180

Legend: 1 Office Space 2 Meeting Room 3 Staff Unisex Toilet 4 Staff Lunch Room

5 6 7 8

Switch Room DXF Unit Wine Library Roof Barrel Room Roof

9 10 11 12

Worker’s Lunch Room 13 Crush Pad Roof Worker’s Toilets / Changerooms 14 Dispatch Area Roof Boiler Room 15 Cooling Tower Elevated Gantry

Date/ Client/ Designed/ Class/

March 2014 Marco Vittino Mitchell Cook ARCT 3030

Drawing/

Schematic Design/

First Floor Plan 1:500

a4

Mt Barker Winery W.A.

COOI< 20942043@students.uwa.edu.au


in-situ concrete Soil and Aggregate from the excavation is used in the mix, reducing the wall’s embodied energy. Iron oxide pigment is also added, giving the walls a reddish, ‘West Australian’ colour. The mass of the concrete also provides thermal benefits.

‘low e’ glazing This glazing increases the energy efficinecy of the windows by reducing the transfer of heat or cold through the glass, making it easier to maintain an internal equilibrium.

greenwall Green walls line the vertical ‘blade’ walls, softening an element of the building’s exterior.

timber louvers The Northern windows are sheltered by horizontal Timber Louvers, protecting them from solar heat gain The Northern windows are sheltered by horizontal Timber Louvers, protecting them from solar heat gain whilst also aesthetically complimenting the buildings horizontal form.

Stainless Steel Vents

colorbond’ roller doors

gabion walls

Operable vents encourage passive cooling through ‘Cross Ventilation’, whilst also preventing the accumulation of CO2 at floor level in the Wine Production areas. They are powder coated to make them less apparent in the elevation.

Large Roller doors permit forklift circulation through the Wine Production areas. The clean aesthetic lines compliment elements of the building’s facade. They are powdercoated, protecting them from harsh Australian Climate.

Rocks from the excavation are incorporated into the Northern retaining walls and amphitheatre terracing. The rough aesthetic compliments the In-situ concrete walls and emphasises the West Australian aesthetic of the building.

Date/ Client/ Designed/ Class/

March 2014 Marco Vittino Mitchell Cook ARCT 3030

Drawing/

Schematic Design/

Northern Elevation 1:200

a5

Mt Barker Winery W.A.

COOI< 20942043@students.uwa.edu.au


Flat Roof 2% Grade Ensures rainwater runs down towards the Southern side of the building. Water Harvested from the roof is for Wine Production and recycled on site. Box Gutter Flashing Exhaust Flue Parapet Wall The Parapet Wall mitigates view of Winery Roof. Flat Truss System Exposed HVAC Ducting Steel I-Beams Hidden in reccesses inside the concrete wall. Support the truss system.

Thermal Mass Diagram Heat is released into the Tank Room, helping to maintain a constant internal temperature.

Lighting Rig Secondary Structure C-Purlins Tertiary Structure Reinforced In-situ Concrete Internal Lining is sealed to withstand Wine Production. Thermal Mass Wall stores heat energy in the day and releases it slowly during the night to the interior. Steel Gantry

CO2 Cross Ventilation Diagram Vents and windows allow the Prevailing NE and SW winds to ventilate the Tank Room.

Exposed Tank Pump Lines Operable Vent System Operable vents encourage passive cooling through ‘Cross Ventilation’, whilst also preventing the accumulation of CO2 at floor level in the Wine Production areas. Reinforced Retaining Wall Provides Thermal Mass and maintains a consistent temperature in winery, reducing cooling load and energy consumption.

65 34

Gravel Backfill ‘Ag’ Drain

Passive Solar Shading Diagram

Waterproof Membrane

Winter Sun is allowed in, Summer sun is excluded. 65deg is optimum cut-off.

Concrete Strip Footing Stainless Steel Line Drains Exposed Concrete Slab Operable Vent System Reinforced Gabion Wall Timber Louvers The Northern windows are sheltered by horizontal Timber Louvers, protecting them from solar heat gain.

Operable Windows Windows are able to be open and closed to best accomodate Cross Ventilation. Also allow natural light into work areas.Low E Glazing.

Date/ Client/ Designed/ Class/

March 2014 Marco Vittino Mitchell Cook ARCT 3030

Drawing/

Schematic Design/

Section AA 1:100

a6

Mt Barker Winery W.A.

COOI< 20942043@students.uwa.edu.au


Date/ Client/ Designed/ Class/

March 2014 Marco Vittino Mitchell Cook ARCT 3030

Drawing/

Schematic Design/

Concept Render -

a7

Mt Barker Winery W.A.

COOI< 20942043@students.uwa.edu.au


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