Portfolio 2013-2017

POrtfolio Giulia Simone

Giulia Simone Architecture Email: giuliasimone10@gmail.com Tel: +39 3465803827 (it)

About me Birth Date: Adress: Profession: Email: Tel:

26th October 1993, Torino, Italy Corso Peschiera 265, Torino, CAP 10141, Italy Architect giuliasimone10@gmail.com +39 3465803827 (it)

Education 2015-2017 MASTER DEGREE IN ARCHITECTURE Gradueted at Politecnico di Torino, Department of Architecture and Design, Master in Construction and City,

gradueted with 110L/110 and honorable mention.

2016-2017 ERASMUS PLUS École Nationale Supérieure d’Architecture Lyon, Courses and Final Project, attended the second year of Master. 2012-2015 BACHELOR DEGREE IN ARCHITECTURE Graduated at Politecnico di Torino, Department of Architecture and Design,

Bachelor in Architecture with 102/110.

2007-2012 DIPLOMA MATURITÀ SCIENTIFICA

Internship - Assistant Professor “Atelier Progetto e Rappresentazione”, Professor M. Graffione, from September 2015 to March 2016. - FOR Engineering and Architecture, from September 2014 to July 2015.

Workshop -

International Workshop Suzhou, Xi’an Jiaotong- Liverpool University, from 18th February to 25th February 2017. 48h pour faire vivre des idées, Challenge étudiant, 4ème édition, INSA Lyon, November 2016. Expo dopo Expo, Workshop di progettazione 2016, Politecnico di Milano. International Summer School 2015 - Centro Internazionale Studi sul Paesaggio e sul Giardino Bergamo, August 2015. Il disegno per le mani, graphic design for blind people 2015, Politecnico di Torino. Birdwatching Tettolupo, Atelier Mobile from 7th September to 13th September of 2014. Workshop of Architectural photography “Scenari urbani”, Visual School of photography, 2013.

Publication and competition - Honorable mention and publication of the final thesis of master “Kuisinarum: a project for a mobile kitchen”. September 2017. - Honorable mention. Sydney Rehearsal Follies, International competition for students by ARCHMEDIUM. April 2017. - Publication of the best project of Politecnico of Torino. Design Unit “ Architettura e economia urbana”, first year of Master. - GreenNews.info, June 2016. Maestri del Paesaggio 2016: a Bergamo la ricongiunzione tra wild nature e smart city. - ArchAlp, foglio semestrale dell’Istituto di Architettura Montana, December 2014. Project of Tettolupo, Atelier Mobile.

Language skills Italian: Mother tongue English: Excellent (C1) French: Excellent (C1)

Informatical skills

Autocad and Revit Photoshop, Illustrator and InDesign Google Sketchup, Rhyno and 3ds Max Office, FinalCut Pro

Personal Skills

Creative Person Team Worker Musicial Photographer

Contenents - Follow the bubbles: international competition - Kuisinarium: cuisine cantine mobile - &co- Hotel - Mirafiori Creative Cluster - Costruire nel Costruito - Wilderness: international Summer School - Toiture Vivante - Changmen District: international workshop

FOLLOW THE BUBBLES HONORABLE MENTION ARCHMEDIUM INTERNATIONAL COMPETITION a.a 2017

WHAT: Sydney Revearsal Follies WHERE: Sydney, Australia Follow the Bubbles is a project that aims at diffusing the music and its culture in one of the most important public space of the city of Sydney. It is a botanic garden, it is a musical park, it is a new collective space for the people, but it is also a place where to be connected with the nature and to have fun. The main goal, in fact, is to connect the nature of the Royal Botanic Garden to the music and the visitors.

Undefined and rounded forms generate a fluid and continuous succession of space.

An ecological environment is achieved by a glazed surface on the facades.

The new path is designed to allow the passer-bys to admire closely the vegetation.

The pillars are positioned like a forest, where people can trace a winding walkway.

Ticket Office Info Point

Bar

Rehearsal Room Rock Music

Rehearsal Room Classic Music

Auditorium

KUISINARIUM: CUISINE CANTINE MOBILE PROFESSORS Cécile Regnault William Vassal a.a 2016-2017

WHAT: Modular and mobile kitchen WHERE: Lyon, France The work of thesis’ goal is the design of a mobile kitchen. The project has been proposed by Komplex Kapharnaum, a company of international artists. They asked for the delineation of a “capsule”: a module that can easily be installed and moved in the public space. The mobile kitchen is the pretext to attentively analyze the relationship between man and food, and how an architectural project and the dimension of food can contribute to the delineation of the public space.

4 Scenarios

1_ Utilitarian This is the basic scenario, where the kitchen is used only by the company of artists to prepare a lunch or a supper.

3_ Pedagogic The kitchen is thought both as a workshop space to learn to cook, to play instruments, to make some artistic performances and as a first approach to the concept of the km 0 agriculture.

2_ Spectacle The roof, composed by many panels, is closed on one side to have a space of projection, while from the other side it comes completely open leaving the space for the installation of the kitchen

4_ Transport The closed Kuisinarum for the transport is a signal in the public space, but at the same time it is something extraneous and intriguing.

Photovoltaic panels to achieve the self-sufficiency

Roof with slope to collect the rainwater

Wood structure

Movable panels

Carts for the distribution of food

Modules of the kitchen (sink, refrigerator, stockage)

Metallic structure

Trailer

The organisation of the kitchen

SPAZIO SEDIE PIEGATE

CUCINA PASTI FREDDI

RIFIUTI

CONTENITORE ALIMENTARE

CONTENITORE PIATTI UTENSILI

SPAZIO WORKSHOP

MA

&CO- HOTEL PROFESSORS Matteo Robiglio Isabella Lami Paolo Corgnati a.a 2015-2016

WHAT: Hotel km 0 WHERE: Olimpic BobSleigh, Cesana, Italy The &CO-Hotel is a project to re-use the Olympic complex of bobsleigh built in Cesana in 2006. In the project the idea of the hotel is based on the traditional activities of these mountains. The complex will be a place where turists can enjoy the life in an Eco-village. Some resident families will manage the hotel and the related activities such as the production of wine, cheese and honey.

S

0

ASTERPLAN

SCALA 1/1500

0

20 10

40 30

50

Tree houses

Economic and energetic analisys

TAR

TIPOLOGIA 1 7 5 12 11 6

4 unità da 32 m2

Ri cen pom

1 2 8

EPR

9

2

3

4

6

1. struttura in Xlam_ 15 cm 2. isolante rigido_ 15 cm

TARGET ENERGETICI

3. pavimento radiante_ 10 cm 5. strato impermeabilizzante

7. sgocciolatoioRiscaldamento 8. listelli abete centralizzato 9. triplo vetro

2 5

Acqua calda sanitaria 60% dalla pista con

6. barriera a vapore

con

pompa di calore

Energia elettrica 100% dalla pista pannelli fotovoltaici

pannelli solari

10. pali di acciaio strutturali

8

16

10

4. pavimento

11. massetto di pendenza

1. Xlam_15cm 2.Rigid Insulation_15cm 3.Radiant floor heating_ 10cm 4. Floor 5. Waterproof membrane 6. Vapour Barrier 7.Water gutter COSTO 8.Fillers fir Raffrescamento 9. Triple glass window pari a zero 10.Steal pillar kWh/m Qc < 11.15 Slab withanno slope 2

12: strato di finitura

Epr Renouvalable EPRwithout AL DI Energy FER TIPOLOGIA 2 LORDO

QH

QH

4 unità da 25 m2

ENERGY CLASS ENERGETICA CLASSE

65 kWh/m anno year 2

QE

BENE

EprEwithCON Renouvalable FER PR

15 kWh/m year anno 2

QW

QW

COSTO DICONSTRUCTION COSTRUZIONE COST OF 48.830 €

TIPOLOGIA DI STANZA TYPE OF ROOM 4 Suites

1500 € al m

2

A+ PREZZO A THE STANZA PRICE FOR ROOM

250 €

- 2°C

- CO

- AS

- AS

EPR

U= 0,7 W/m k

TARGET ENERGETICI

1. struttura in Xlam_ 15 cm 2. isolante rigido_ 15 cm

3. pavimento radiante_ 10 cm

8

16

10

4. pavimento

QE

5. strato impermeabilizzante

Acqua calda Comunità sanitaria 60% Agricola dalla pista con pannelli solari

8. listelli abete

Riscaldamento 11. massetto di pendenza centralizzato con 12: strato di finitura pompa di calore 9. triplo vetro

10. pali di acciaio strutturali

000 €

TIPOLOGIA 2 2 1 4 5 3 6 4 unità PISTA: da 25 m2Mezzo di trasporto

7

9

8

11

10

12

13

48.830 € Energia elettrica 4 Suites Raffrescamento 1500 € al m2 100% dalla pari a zero pista pannelli Qc < 15 kWh/m anno BENEFICI DELLA FITODEPURAZIONETARGET TIPOLOGIA 3 ENERGETICO fotovoltaici 15

EPR AL LORDO DI FER

000 €

QH

000 €

14

EPR CON FER

€

65 kWh/m anno 2

.000 €

U= 0,7 W/m2k

50%

QH,us

100%

QW,us

QH

15 kWh/m anno

66 kWh/m anno

0

48.830 €

2

250 - acs: 60% coperto dai pannelli solari termici€

4 Suites

Pannelli solari termici

Benefit of phytodepuration BENEFICI DELLA FITODEPURAZIONE 2°C environment INTORNO

Case sugli 2°C NELL’ alberi

QE,use

31 kWh/m2anno

QH,use

19 kWh/m2anno

6. barriera

Q

7. sgocciol

8. listelli ab

9. triplo vet

10. pali di a

11. masset COSTO

12: strato d

Pompa di calore

Heat

220 € pump

TIPOLO

1 4 unità d

Pannelli fotovoltaici

-Pompa di calore: COP pari a 4,5 0 kWh/m2anno - Collegamento con la rete elettrica nazionale

- absorption of rain water ASSORBIMENTO ACQUE PIOVANE

Reception

80 kWh/m anno 100%

ACS riscaldamento elettricità da pista PR

E

H

2

3

4

5

7

8

9

10

11

12

33.670 €

Pompa di calore

13

14

3.000.000 €

2

2

2.250.000 €

2.250.000

QE

1

2

3

QW

COSTO DI COSTRUZIONE

0€

0

TIPOLOGIA DI STANZA

- 750 000 €

-750.000

-2.250.000

3.000.000 €

220 €

2 Camere triple

NPV VAN 1.864.750 €

Scenario 2: 2: Tir Scenario IRR19% 19% Scenario 3: 3: Tir Scenario IRR5%5%

Pannelli solari termici

Pannelli fotovoltaici

10

11

12

13

14

15

TIPOLO

4 unità d

180 €

- 2 250 000 €

1600 € Scenario al m2 1: Tir Scenario 1: IRR15% 15%

9

PREZZO A STANZA

-1.500.000 2 Camere doppie

44.600 €

8

A+

750.000 €

750.000

CLASSE 4 5 6 7

ENERGETICA

1.500.000 1.500.000 €

QW

180 €

4 Camere doppie

1650 € al m2

15

Comunità PREZZO A STANZA Agricola

TIPOLOGIA DI STANZA

COSTO DI COSTRUZIONE

QH

3.000.000 15 kWh/m anno

66 kWh/m anno

A

QW

QW

CON FER

dell’acqua

6

U

ENERGETICA

2

QE

4

SCALA 1/50

18 kWh/m anno

2

cisterna Cash FlowFLUSSI AnalisysQ CUMULATI - 15 Years ANALISI SU 15 ANNI depurazione 5

QH

CLASSE

-- ASSORBIMENTO absorption of grey water ACQUE GRIGIE

3

EPR CON FER

50%

QH

PISTA: 802.590 € CASE SUGLI ALBERI: 1.180.923 € 1470 €/m2

2

9 kWh/m2anno

10%

COSTO INTERVENTO

EPR AL LORDO DI FER

9 kWh/m2anno

Pompa di calore

9 kWh/m2anno

31 kWh/m2anno

QW,use

EPR AL LORDO DI FER

k

A STANZA

180 €

depurazione dell’acqua

Pannelli fotovoltaici

10%

- CO MIGLIORAMENTO QUALITA’ ARIA CO2: 2 better quality of air

2

electricity heating

5. strato im

LOCALE TECNICO

4 unità da 19m2

1

riscaldamento elettricità PREZZO da pista

4. pavimen

- riscaldamento: 50% coperto dai pannelli fotovoltaici

TIPOLOGIA 3

1

3. pavimen

PANNELLI SOLARI TERMICI DHW ACS

cisterna 2 Cameretank doppie

5

2. isolante r

A+

QW

TIPOLOGIA DI STANZA

4

EP 1. struttura

PANNELLI FOTOVOLTAICI

depuration SCALA 1/50 2 2 Camere triple 1600 € :80% al m coperto dai pannelli fotovoltaici - elettrico water

1500 € al m

0

CLASSE ENERGETICA

2

PREZZO A STANZA

€ FABBISOGNI 1 44.600 3

2

-

SISTEMA CENTRALIZZATO

QH

A+

COSTO DI COSTRUZIONE

TIR 15%

EPR CON FER

ENERGIA VERDE

- energia prodotta = 202.500 kWh/anno

VAN 1.864.750 €

SISTEMA 100% ELETTRICO

ENERGETICA 15 kWh/m anno

2

TIPOLOGIA DI STANZA

SISTEMA ENERGETICO

CLASSE

Q

COSTO DI COSTRUZIONE

QE,us

- ASSORBIMENTO ACQUE PIOVANE

QE U= 0,15 W/m2k QW Impianto fotovoltaico con rendimento del 14% W - 730 mq coperti

QW

4 unità d

CO2 PARI A 0

PISTA: Produzione di energia elettrica

QE

80% ENERGIA ELETTRICA VERDE

10%

2

000 €

TIPOLO

- CO2 MIGLIORAMENTO QUALITA’ ARIA

EPR AL LORDO DI FER

- 230 mq coperti per 130 persone - 60% del fabbisogno totale

16

250 €

10%

- ASSORBIMENTO ACQUE GRIGIE

QH

PISTA: Produzione di Acqua calda Impianto solare

000 €

PREZZO A STANZA

2 4 unità 19mINTORNO - 2°C da NELL’

- Energia elettrica - Acqua per il riscaldamento

COSTO D

2

- Acqua calda sanitaria

.000 €

TIPOLOGIA DI STANZA

COSTO DI COSTRUZIONE

6. barriera a vapore 7. sgocciolatoio

A+

QW

QW

2 5

Pannelli fotovoltaici

IRR TIR 15%

0 1

SCALA

MIRAFIORI CREATIVE CLUSTER PROFESSORS Subash Mukerjee Luca Caneparo a.a 2015-2016

WHAT: School: From kindergarden to secondary school WHERE: Moncalieri, Italy The site for the design task was chosen among Torino’s most urgent and most generic areas, the housing district of Via Plava, where we had to deal with a complex and underused environment, operating a balanced mix of demolitions, new buildings and transformations of the existing. A new form and importance is given to the educational system. The main idea is to merge the four schools into a single cluster of activities.

1

1

2

1

2

6 2

2

Plans and sections

6

3

5

6

6

2

1

ram. The slopes which hold the educational programs e schools connect different activities making a contis sequence for the school time.

2

Architectural concept. Four volumes are wedged in the ground floor slab. Green spaces are captured within the pe-2 rimeter to articulate the various activities. 3

6

Internal zones. The learning centre has different layers. In fact, during the day it hosts a teaching plan, while during the night it offers other educational projects, instead.

Structural design. This is a building with a steel p structure. Smaller areas are created by partitions, 2 walls and patios. These spaces feel more private.

6

4

6

6

2

ram. The slopes which hold the educational programs 6 2 e schools connect different activities making a conti2 s sequence for the school time. 11

Architectural concept. Four volumes are wedged in the ground floor slab. Green spaces are captured within the perimeter to articulate the various activities. 8

2

6

1

Internal zones. The learning centre has different layers. In fact, during the day it hosts a teaching plan, while during 10 7 the night it offers other educational projects, instead.

10

7 2

8 6

5

2 8

N

10

5

2

-3 m

S = 1/500 1

6

11

5

6

2

2

6

structure. Smaller areas are created by partitions, walls and patios. These spaces feel more private.

6 8

6 1

13 2

N Structural design. This is a building with a steel p

6

6

2

4 8

8

6

2

6

4

S = 1/500 6

8

6 1

8

13 5

8

10

1

6

2 9 2

2

1 9

10

6 4

-3 m

6

5

6

6

12

2

1

GYM

8

1

1

2

DINING HALL

2

6

9

7

2

1 2

9

GYM

5 12

6 8

2

1

10

6

3

6 1

10

DINING HALL

2 7

2 3 6 6

8 6

10 6

9

6

2 2

AUDITORIUM

10

2

7

8

11

10

2

6

2

6 6 6 8

6

8

8

10

6 2

AUDITORIUM

6 SECONDARY SCHOOL

ATELIER

9 2

7

10

2

2

12

6

8

8

10

8

11

12

NURSERY SCHOOL 6

6 13 2

6

NURSERY SCHOOL 6

6

8 10

13

6

8

ATELIER

2

9

10

9

SECONDARY SCHOOL

6

12

2 A

A'

6

8 2

9

KINDERGARTEN

9

PRIMARY SCHOOL 2 A

A'

KINDERGARTEN PRIMARY SCHOOL

A'

A'

10 12

8

9

2

SECONDARY SCHOOL

PRIMARY SCHOOL

2

ATELIER

Atelier

Primary School

Secondary School

6

13

2

11

KINDERGARTEN

Kindergarten

2

2

2

6

1

8

6

6

l pillars s, glass

10

6

2 13

11

2

6

13

2

2

9

2 8

2

10

6

2

9 6

2

11

10 10

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6

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2

2

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9

10

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9

2

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14

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8

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2 6

10

10

6

6 6

6

9

6

6

2 15

8 2

9

6

2

2

13

8

6

2

2

6

11

2

2 6

8

8

6 6

6

2 13

11

2

9

6

6 6

6

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10 2

6

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10 2

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2 2

1 Foyer

8

8

11

9

2 2

2

2

12 2

6

9

6 9

3

9

14 2

10

2

10

9

2

6

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2

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9 13

2

2

2 Toilet

2

3 Expositions Temporaires

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2

6

6

2

6

4 Cafeteria

11 10

2 6

9

6

5 Kitchen

2

8

6 Classroom

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6

14

2

6 9

6

6

9 Lobby

2

22

6

10 Multipurpose room 10 Corridor 11

3 2 6

2

6 8

11

2

12 Dormitory

9

2

13 Office

2

N

6

6

14 Study Hall 15 Workshop

2 6

10

9

6

2 15 2

2

6

3 6

9 6

2

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N

9

7 Library 8 Meeting room

6

2

10

POLITECNICO DI TORINO | ARCHITECTURE Construction City | A.Y. 2015/2016 | Design Unit “Design strategies | Intensyfing peripheries” | Professors: S. Mukerjee, L. Caneparo | Students: A. Cacioppo, S. Favaro, G. Simone

2

Details School Facade N

FACADE DETAIL SCHOOL S = 1/10

FACADE DETAIL P S = 1/10

Water gutter Insulation - 4 cm Poroton 36,5x24,7x23,8 cm

Steel C - profile Stainless steel - 1 cm

Waterproof membrane - 0,6 cm

Waterproof membrane - 3 m Corrugated sheeting Bracket Mullion

Insulation - 20 cm

Exterior faรงade with expanded metal mesh

Insulation - 10 cm

IPE 330 steel beam

Vapour barrier - 3 mm

Waterproof membrane - 3 mm Structural steel C - profile Wood block

Steel L - profile Vapour barrier - 0,3 cm Composite slab of concrete fill over corrugated sheeting - 12 cm IPE 270 steel beam

Composite slab of concrete fill over corrugated sheeting - 15 cm IPE 330 steel beam

False ceiling

False ceiling

Full-height glazed faรงade with double glazing

Double galzing glass

Stainless steel - 1 cm

Concrete slab

Waterproof membrane - 0,6 cm Insulation - 20 cm Vapour barrier - 0,3 cm Composite slab of concrete fill over corrugated sheeting - 12 cm False ceiling

Slab on grade

Steel L - pr

Floor plan Insulation - 7 cm Vapour barrier - 0,3 cm Slab with system - 4 cm Corrugated sheeting - 8 cm False ceiling

Dripstone Plaster aquapanel indoor Insulation - 6 cm Plaster panel Mullion

Wate

Platform Facade FACADE DETAIL PLATFORM S = 1/10

Stainless steel - 1 cm Vapour barrier- 0,3 cm

Water gutter Insulation - 4 cm

Waterproof membrane - 0,6 cm

Waterproof membrane - 3 mm Corrugated sheeting Bracket Mullion

Insulation - 20 cm Steel L - profile Vapour barrier - 0,3 cm Composite slab of concrete fill over corrugated sheeting - 12 cm IPE 270 steel beam

Composite slab of concrete fill over corrugated sheeting - 15 cm IPE 330 steel beam

False ceiling

False ceiling

Full-height glazed façade with double glazing

Concrete slab Slab on grade Steel L - profile

Water gutter

Silicone seal Rigid insulation - 5 cm Insulation - 3 cm

Floor panel Slab with system Insulation - 20 cm Crawl space with igloo

CTURE Construction City | A.Y. 2015/2016 | Design Unit “Design strategies | Intensyfing peripheries” | Professors: S. Mukerjee, L. Caneparo | Students: A. Cacioppo, S. Favaro, G. Simone

Steel C - profile Stainless steel - 1 cm

COSTRUIRE NEL COSTRUITO PROFESSORS Paolo Antonelli Daniela Bosia a.a 2013-2014

WHAT: Residence for students WHERE: Borgo Rossini, Torino, Italy The project inserts itself in a overly edified area of the city of Turin. The main goal is to study the relationships between the work of the architects and the context in which they have to design. The central theme of “building in the built� is studied in different scales of the project: from the urban one to the smaller technological solutions of the project.

Concept

3-Different typologies of units

Duplex

2- Studies for the natural lights

Simplex 1- Existing building

Plans

new

es

pac

lic s

pub

s

me

volu

wc

Study room

Bar wc Common space Hall

View of the apartement

View of the square

View of the theater

View of the entrance

WILDERNESS INTERNATIONAL SUMMER SCHOOL PROFESSORS Stefan Tischer Elisabetta Bianchessi a.a 2015-2016

WHERE: Piazza Vecchia, Bergamo, Italy “The main characteristics are: the strong contrast between the medioeval context of Piazza Vecchia and the wilderness of the vegetation and how they could work together...“

TOIRURE VIVANTE PROFESSORS Paul Vincent Estelle Morle Emmanuel Ritz a.a 2016-2017

WHAT: A new patent for a green roof WHERE: Lyon, France

The project is the study for a new type of green roof. With a new patent for a tile with vegetation, there is the possibilty to install a green roof on all the existing types or roof: flat, gabled and shed.

Layer of sedum and fat plants Layer of coconut fibres

Layer of soil

Wood grate, in case of strong slope

Tile of terre cuite

Metallic profiles

CHANGMEN DISTRICT PROFESSORS Pierre Alain Croset Michele Bonino Juan Carlos De Martin a.a 2017- 2018

WHAT: International Workshop WHERE: Xi’an Jiaotong/Liverpool University di Suzhou, China The approach consisted of assessing the site area and making determinations based on historical significance. After we had determined which areas in the site required an intervention, we designed functions which would provide a regenerative impact. We approached this in an‘acupuncture treatment’ style, a healing process that identifies key stress points in order to stimulate the whole body beneath the skin.

Thank you!