Architecture Portfolio 2020

architecture

PORTFOLIO MSc Sustainable Architecture Studies SantiagoAriasFranco

CONTENTS 00

CURRICULUM VITAE

01

PINDALE FARM OUTDOOR CENTRE

02

FIRE STATION 1 RETROFIT

03

ARTS AND CRAFTS CENTRE

04

SEAPORT IN TURBO

04 07 11 15 19

CURRICULUM VITAE

00

SANTIAGO ARIAS FRANCO contact info

basic data

education

curriculum vitae Full Name Santiago Arias Franco Date of birth 30 / 01 / 1992 Flat 6, Broomgrove House, 1 Broomgrove Mews S10 2LT Sheffield, United Kingdom

EDUCATION 2018 / 2019 MSc Sustainable Architecture Studies Distinction - 76 The University of Sheffield 2010 - 2015 BA Architecture GPA 4.16 Pontifical Bolivarian University - Medellin, Colombia (RIBA Certified since 2004) 1997 - 2009 Primary and Secondary School San Ignacio de Loyola School - Medellin, Colombia

WORK EXPERIENCE Hadfield Cawkwell Davidson Architectural Assistant November 2019 - July 2020 Arquitectura & Concreto BIM Modeller - Construction budget department December 2015 - August 2018

santiago.ariasfr@gmail.com +44 7470 986 771 www.linkedin.com/in/santiago-arias-franco-377229173/ www.flickr.com/photos/sa_arias/

SKILLS Creativity Responsibility Punctuality Team work Revit AutoCAD 2D Adobe Illustrator Adobe Photoshop Adobe InDesign Microsoft Office IES-VE Other relevant skills to assess sustainable architecture Knowledge in Passivhaus standards, Life Cycle Assessment and BREEAM assessments. Revit + Insight + Green Building Studio IES - Virtual Environment Climate consultant Sefaira analysis Spanish (Native) English German

AM Architects Intern Architect July 2014 - January 2015 Juan Carlos Vallejo Architect’s Office Architectural drawing 2012 - 2014

AWARDS Passivhaus Student Competition 2019 Organised by the Passivhaus Trust International Santander Postgraduate Scholarship Granted by the Santander Group on 2018/2019

INTERESTS MUSIC Films r e a d i n g PHOTOGRAPHY Sustainability g u i t a r FRIENDS Design TRAVEL Sports f a m i l y DRAWING I even got a website with my Photography works! https://santiagoariasfr.wixsite.com/photography

“ARCHITECTS DON’T INVENT ANYTHING; THEY TRANSFORM REALITY.” ÁLVARO SIZA

Academic Portfolio

2.17 0.79

0.91

1.00 1.13

1.20

0.130.35 1.13

0.80

MB_1. Ground Level (+194.00)

2.60

1.20

196.60

1.00

0.25 0.35

0.80

MB_2. First Level

5.08

2.17

01 MB_3. Roof 198.80

Pindale Farm entrance on Pindale Road

194.00

0

5

10 m

Section C-C' 1 : 100

MB_3. Roof

MB_3. Roof

198.80

198.80

MB_2. First Level

MB_2. First Level

196.60

196.60 MB_1.A. Mezzanine 195.60 MB_1. Ground Level (+194.00)

MB_1. Ground Level (+194.00)

194.00

194.00 MB_0. UnderGround Level - (+192.50) 192.50 0

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1.North Elevation

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MB_2. First Level A-A'

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A-A' A107

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A107

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MB_1. Ground Level (+194.00)

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0.78

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0.78

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B001

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Reception Hall 82.48 m²

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1 : 100

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DN

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A108

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C-C' 192.50

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64.87 m²

A108

UP

DN

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Dining Area

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3.63

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C-C'

8

.69

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0.78

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1.8 0 13

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0.78

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12.42 m²

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Kitchen 1.8 0

10 m

DN 0

Underground floor level

5

0.78

0.78

196.60

10 m

D-D’ Section

1 : 100

D-D'

MB_3. Roof 198.80

5

Section D-D'

North east elevation

1 : 100

10 m

Ground floor level

Pindale Farm Outdoor Centre

PINDALE FARM OUTDOOR CENTRE Posgraduate works

Retrofit and extension

Project type: Retrofit traditional barn hostel Studio 2: Sustainable Design Project 2 Professors: Dr Sally Shahzad, Paul Testa Team: Sahil Jaiswal, Sergio Gomez, Santiago Arias Franco Date: February 2019 - May 2019 Location: Hope Valley, Derbyshire, UK

The University of Sheffield

United Kingdom

This aims to retrofit the Pindale Farm Outdoor Centre and extend it to enhance the outdoor activities that take place in the Peak District by providing sustainable and improved accommodation. As the Peak District has an inherited architecture value, the project meant to preserve its precedent architecture at the same time it provides energy efficiency and thermal comfort to its occupants. The project was put through different simulations to ensure the highest efficiency in terms of daylight illumination, thermal comfort, energy efficiency and the potential use for renewable energies. To achieve these purposes the addition of high levels of insulation and unfired clay bricks locally sourced to achieve a good fabric while keeping the local limestone for exterior walls. The whole project runs on an open loop ground source heat pumps system which provides the heating through underfloor piping saving energy and water. Also, the incorporation of an MVHR system mixed with photovoltaic panels, allow lowering the energy demand up to 66.3 kWh/m2/year.

Improve indoor daylight quality by space re-planing, window-to-wall ratio improvement and use of new and better positioned skylights to avoid use of electrical lighting during day hours.

Created by iconsmind.com rom the Noun Project

Reduction of energy consumption to less than 100 kWh/m2/year with the improvement of the buildings fabric, as well as the incorporation of renewable energies.

Created by supalerk laipawat from the Noun Project

Achieve thermal comfort for occupants through the improvement of buildings envelope, avoiding heat losses, thermal bridges. Include heat pumps to underfloor system to reduce energy in heating systems.

Created by Vectorstall from the Noun Project

Minimise fresh water usage by the incorporation of a Open loop ground source heating and water system, providing both heating and water for consumption.

Created by Studio GLD from the Noun Project

0.78

D-D'

D-D'

0.05

0.78

A108

A108

Peak District

0.80 0.68 0.80

1.94

1.94

1.77 m²

1.94 1.93

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0.81

1.8 0

2.48 m²

0.91

0.09 1.28

0.81

1.33

1.01

0.15

1.25

0.14

3.71 1.64

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1.01

0.22

2.58

1.8 0

0.16

3.86

0.78

15.16 m²

1.04

1.01

Room

0.20

3.86

0.15

1.33

0.63

0.20

0.10

WC

0.15

A107

5.95

A107

0.15

A-A'

1.9 1

Shower

A-A'

0.83

3.23

4.41

0.15

0.88

4.41

3.75

1.35

WC

0.15

2.18 m²

1.25

1.1

1.49

A108

C-C'

2.70 m²

0.78

4.26 1.59

0.18

2.53

1.81

Shower

0.15 0.95

1

0.20

1.0 8

0.15

2.54 m² 1.71 0.91

2

DN

0.78

WC

0.21

0.61

1.81

1.2 0

A108

0.78

0.91 2.11

4

0.85

0.20

0.33

0.20

1.7

1.62

1.8 0

1.71

1.01

3

0.20

0.91

1.41

0.05

195.60

3.97

2.26

1.49

15.05 m²

1.25

DN

0.21

0.20

0.20

Circulation

0.20

A119

0.80

1.59

A119

4

2.48

1

6

1.49

2.24

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4.09

3.72

1

6

12.79 m² 2.58

0.80

0.74

7

Room

0.15

4.41

0.80

0.00

0.20

1.35

1.51 0.15

1.8 0

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2.18 m²

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0.20

0.80

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WC

1.50

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3

1.61

0.35

0.15

2.72

2.47

0.93

5

4

C-C'

1.35

4.09

6

13.37 m²

0.15

2.58

0.27

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Circulation

1.01 0.88

2.28 m² 0.81

4

0.16

1.33

1.8 0

1.5 0

1.04 0.16

Shower

0.81

B001 12.79 m²

0.20

1.62

1.7

2.28 m²

0.35

Room 2.58

0.20

Shower

0.35

0.95

1.5 0

0.81

1

0.20

0.81

1 B001

1.35

3.75

1.69

0.78

Room 22.56 m²

1.50

0.78

2.78 4.26

5.94

1.50 5.30

1.5 0

1.50

0.47

4.90

1.5 0

B-B' 1.2 5

A107

1.0

5

0.78

A107

0.78

B-B'

1.5 0

0

5

0

10 m

Mezannine floor level

5

10 m

First floor level

Academic Portfolio

Solar PV Panels

Roofing: Skylight - Triple glazing - Assembly U-Value 1.00 Roofing: Air Tightness

Roofing: 50mm Rigid insulation - Wood fibre Roofing: 60mm Stone slates - Gritstone Roofing: Exoperm 150 - Waterproofing Roofing: 100mm Rigid insulation - Wood Fibre Roofing: 300mm Insulation - Sheep Wool Roofing: Air Tightness Roofing: Interior Plaster

U-Value 0.088

Roofing: 25mm x 50mm Counter Batten

Roofing: Interior Paint Roofing: Truss System

Roofing: Gutter Wall: Interior paint finish Wall: 25mm Plasterboard Wall: 100mm CrossLaminated Timber

Wall: 150mm Gritstone Lintel

Window: Low-E coating Triple Glazing Timber Frame - Assembly U-Value: 0.657 Wall: 150mm Gritstone Sill

Wall: 100mm Unfired Clay Bricks

MB_2. First Level

Wall: Air tightness Wall: 25mm Plasterboard Wall: Interior Finish Paint Floor: 25mm Polished floor finish Floor: 75mm Screed for radiant floor heating

Floor: Radiant floor heating 20mm pipes - 300mm spacing Floor: Radiant floor pipes staples Floor: 50mm Rigid insulation - Wood Fibre Floor: 200mm Existing concrete slab

U-Value 0.221

Wall: Timber baseboard

U-Value 0.119

Wall: 400mm Limestone Existing Wall Wall: 3x100mm Sheep Wool Insulation layers

1. Ground Level (+194.00)

Floor: Floor: Floor: Floor: Floor: Floor: Floor:

25mm Polished floor finish Air Tightness 75mm Screed for radiant floor heating Radiant floor heating 20mm pipes - 300mm spacing Radiant floor pipe staples 150mm Rigid insulation - Wood Fibre Damp proofing membrane

Floor: 200mm Existing concrete slab

U-Value 0.221

Window: Low-E coating Triple Glazing Timber Frame - Assembly U-Value: 0.657

Floor: Existing exterior concrete walkway

Foundation: Existing traditional stone foundation

Detailed Section of Building’s fabric and construction

Pindale Farm Outdoor Centre

Environmental section summarising all strategies implemented in the Main Barn.

Annual energy demand, CO2 emissions and total energy mix graphs

Interior view

Exterior view

Interior view

Interior view

Academic Portfolio

02 Fire station courtyard. Engaging community with the workers

Sun and Shading

Solar radiation

The building geometry can be modified or reshaped to allow darker places to improve the exposure to daylight. Shading devices in the facade will be necessary to block summer sun and welcome winter sun.

The height of the building is close to the average buildings of the area and is not overshadowed by any of its neighbours. The strategy implemented is to reshape the building to slope the roofs towards the south and west. This will help to maximize the solar radiation.

Fire Station 1 Retrofit

FIRE STATION 1 RETROFIT Retrofit public facility

Posgraduate works

The University of Sheffield

Project type: Retrofit public facility Studio 1: Sustainable Design Project 1 Professors: Dr Sally Shahzad, Paul Testa Team: Sahil Jaiswal, Santiago Arias Franco Date: September 2018 - January 2019 Location: Dortmund, Germany

Germany

This studio project was a retrofit of the Fire Station 1 in Dortmund, Germany. To understand the project, the first step was to analyse the climatic region and understand the lineaments we were facing. Then, a thorough study on the building itself was carried. Using different software, it was possible to evaluate how the is affected by solar radiation and the prevailing winds according to the building orientation and its surroundings. Then, it was possible to determine how the building is performing in terms of energy, sun and shading, the illuminance and the solar radiation levels. These readings were to trace a guideline in which the project will be developed. All these analyses gave us some key opportunities, which developed into the vision of the project: “Transform the FireStation 1 into a sustainable community centre which will create new interactions and new bindings with its surroundings to establish a multilinear relationship and a sustainable community.”

Dortmund

Enhance community interaction with the Fire Station: Create new community spaces, redesigning the ground floor for permanent and temporary activities. Improve building’s interior access to daylight: Create a void to allow daylight access to inferior floors; increase direct and indirect natural light with glazing and skylights.

Created by IYIKON from the Noun Project

Created by Luis Prad from the Noun Project

Produce energy on site: Incorporate photovoltaics in new and redesigned pitched roofs to maximise solar gain and energy production. Minimise fresh water usage: Create a reservoir to store rain water collected from hard surfaces and pitched roofs.

Wind analysis

Illuminance

All the surrounding buildings have a similar height as the fire station 1. Prevailing winds come from the south west. The building geometry can be modified to create cross ventilation and stack ventilation, along with an earth tube as heat exchanger.

The building illuminance study reveals that due to its irregular shape, some spaces are over exposed to direct sunlight while others are dark and require the use of artificial lights even during day time. Redesigning the facades will help to guarantee access to daylight in all interior spaces.

Academic Portfolio

Section E-E’ with highlighted joint for detail

PV Panel 1000 x 1700 mm PV Panel Aluminium Structure Water proofing Exposed concrete mass Thermal mass

1 4%

Concrete masonry - 440 x 210 x 140 mm Wall thermal insulation Gutter's projection Reinforced concrete beam

Metallic frame Concrete/Glazing joint

° .00 48

Openable glazing - Stack ventilation Triple glazing

Section E-E' - Callout 1 1 : 10

Detail. Top concrete slab and glazing joint. Axonometric view with building’s program

Multipurpose spaces for community and fire station

Multipurpose spaces for community and fire station

Fire Station 1 Retrofit

Environmental section summarising all strategies implemented in the retrofit project.

Office spaces

Office spaces

Academic Portfolio

03 House-S Project exterior visualisation

A traditionally shaped house with two storeys which separate the resting private area from the social and kitchen spaces. The project is fully oriented towards the south to maximise illuminance levels and activating the thermal mass in winter months. The building’s fabric is made of locally resourced brick for the exterior, as well as thick wood fibre insulation layers and CLT interior walls. The combination of white painted walls with exposed concrete slabs and timber details enhance the simplicity of a home at the same time it plays an active role in thermal comfort with low-impact materials. The space planning works in a way that all rooms, living and dining areas are in the south to naturally heat them during cold seasons, while the services are set on the north side. Skylights are also important part to achieve adequate illuminance levels.

Cross Section

Long Section

House-S Project

HOUSE-S PROJECT Residential Building

Postgraduate works

Project type: Residential Passivhaus Design Studio 2: Sustainable Design Project 2 Professors: Paul Testa, Dr Sally Shahzad Team: Sahil Jaiswal, Sergio Gomez, Santiago Arias Franco Date: February 2019 - May 2019 Location: Sheffield, South Yorkshire, UK This project was part of the annual student competition held by Passivhaus UK and won first place amongst the participants and a price of ÂŁ300. The brief was to design a passivhaus residence with approcimately 160 square metres in which the heating demand of 10kWh/ m2/year. The proposal for the House-S Project aims to achieve high energy efficiency levels by using low impact materials and high insulation levels. The project incorporates a Mechanical Ventilation Heat Recovery system to bring filtered fresh air in as well as extracting stale air. The success of the MVHR implies air tightening the building to achieve 0.6 air changes per hour. Underfloor heating will be incorporated to distribute heat in a uniform way. The design explored the traditional shape of english architetcure with a touch of modernism to increase the exposure to sunlight at the same time materials are explored to improve its performance.

Ground floor level

The University of Sheffield

United Kingdom

Created by iconsmind.com rom the Noun Project

Created by supalerk laipawat from the Noun Project

Created by Vectorstall from the Noun Project

Sheffield

Create spaces with indoor daylight quality by space, thinking of the use of every room and the daylight demand as well as the heat gains from radiation. Planning a low consumption in energy by maximising the amount of daylight use and providing on-site renewable sources to supply the appliances in the house. Achieve thermal comfort for inhabitants using appropiate amounts of insulation, avoiding heat losses, thermal bridges. Inclusion of a Mechanical Ventilation Heat Recovery system to maximisie the efficiency of the thermal environment.

First floor level

Academic Portfolio

Interior render of the social areas

Interior of a bedroom

Circulation

House-S Project

Detailed Section of Building’s fabric and construction

Passivhaus energy demand calculations for the House-S Project

Academic Portfolio

04 Exterior image

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Ground level plan

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Second level plan

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Fourth level plan

Arts and Crafts Centre

ARTS AND CRAFTS CENTRE Undergraduate works

Public building

Pontifical Bolivarian University

Project type: Public building Studio 8: Professional Cycle’s Threshold Professor: Oscar Santana Date: January-June 2014 Location: Medellin’s City Centre, Colombia

Colombia The project developed in this semester is an Arts and Crafts Center which seeks to complement the cultural and historical connotation that the centre of the city has. The project intends to be the launch pad for Arts and Crafts that, in one sense or another, have been lost with the running of time in this sector. The building serves to the public who are interested in getting involved with arts and maybe in learning and developing new crafts.

Pedestrian Connectivity: reconnect the unlinked pedestrian circulations between commercial and cultural sectors. Permeable metal facade: a different option of a louvre facade to protect the building and its inhabitants from direct sun. Interior void arrangement: liberates area in the ground level for public and social interactions, along with improving natural illumination.

The project’s form provides the missing volume for the block’s void which was never filled. The importance of the building lays on respecting formally and geometrically the adjacent buildings, which have been two historical icons in Medellin’s City Centre.

01 2

5

10

20

Sixth level plan

0 1 2

5

10

Medellin

Form complement: fulfilling the void between two historical and iconic buildings which compose the block.

20

Section B-B’

Academic Portfolio

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Constructive detail. Join beam - steel column. Covering and window joint

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Constructive detail. Joint steel column to concrete structure and ceiling detail.

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Constructive detail. Joint steel facade, aluminium handrail detail and tiling detail.

Facade detailed section

Constructive detail. Paving stone floor, building’s access.

Project’s model photo

Arts and Crafts Centre

Atrium and interior bridges

Project’s insertion in context

Ground level’s art exhibition