Architectural Portfolio

DARIA 2022SERGEEVA

ARCHITECTURAL PORTFOLIO

+49 176 2834 sergeevadaria0401@gmail.9978 Linkedin DARIA SERGEEVA

Architect with 5 years of work experience in the design of public, residential and mixed-use buildings. I have worked at various project stages - from concept design to construction drawings. Among the projects I have worked on: a stadium reconstruction project, facades development of residential complex, structural drawings of a residential building and private houses, concept design for hotels, aquapark, transport hub and children technopark. I am interested in working with the BIM methodology (my work experience in Revit is more than 8 years) as an opportunity to organise a de sign process better and develop more sustainable buildings and cities.

Master of Arts, DIA - Dessau International

FREELANCE ARCHITECT - Interior design 10.2020 – 12.2021, 10.2018 – 12.2018

• pre-design research; architectural concepts; architectural drawings; 3D modelling;

E X P E R I E N C E

• working with BIM methodology (collaboration, BIM360); environmental analysis with GH;

09.2018 – 06.2019 • Increased academic state scholarship for special achievements in educational, research, social, cultural and creative activities, MARCHI Moscow.

A W A R D S

CGPA - 27,14 (max. 30)

• architectural design, urban planning, interiors

• Residential buildings

CGPAArchitecture-1,4(max. 1.0)

Shortlisted in «20 Best Undergraduate/Bachelor thesis projects» in the competition «UNFUSE International Architecture Thesis Award ‘18», 05.2018.

• good sketching skills; architectural modeling; architectural visualization

LOZINSKIY UND PARTNERS CREATIVE WORKSHOP, Moscow

• project presentation; issuing tasks to other departments (visualizers, engineers)

08.2020https://mirproekt.ru/–10.2020Leading Architect 03.2020 – 08.2020 Architect

E D U C A T I O N

First Class Certificate and Certificate of Merit of the Architects’ Union of Russia for the Bachelor thesis project at the XXVI International Review Competition of Graduation Projects in Architecture and Design, 10.2017.

• Sport complexes I Public buildings

Revit, Autocad, Adobe Photoshop, Adobe InDesign, Adobe Illustrator, Rhino+Grasshopper, Lumion, QGis, 3ds Max

Software

•06.201510.2017projectshttps://www.behance.net/LozinskyAndPartners/–03.2019Architect–10.2017JuniorArchitectHotels

ARCHITECT

– Built Environment – Interiors

09.2012-06.2019 Master in Architecture

English - C1 German – B1 Russian - native

09.2021- 02.2022 • Politecnico di Milano, Italy

10.2020 - 07.2022 • Hochschule Anhalt, Germany

Languages

VORTEX DESIGN WORKSHOP, Moscow 03.2019 – 02.2020 Architect

MIR PROJEKT CITY PLANNING INSTITUTE, Moscow (before - Giprogor Project)

I Villas I Industrial and public buildings

• Moscow Architectural Institute (MARCHI), Moscow, Russia

Hard skills

Erasmus Student Exchange - MSc in Architecture

CGPA - 4,89 (max. 5,0), diploma with honor

09.2012-06.2017 Bachelor in Architecture CGPA – 4.91 (max. 5,0), diploma with honor

S K I L L S

Student projects

Date of creation: 02/2017-06/2017 Project status: Bachelor’s degree project at Moscow Architectural Institute, under supervision of Prof. Brovchenko S.V., Prof. Kostogarova E.P. and structural engineer Prof. Shubin A.L. Type: individual project Programs: Revit, Lumion, 3ds Max, Vray, Photoshop

Transport Hub

Hyperloop01

The goal of the project was to design a transport hub with a new type of high-speed transportation system - vacuum Hyperloop. The hub is located near Vnukovo Airport in Moscow and includes also suburban railways, ground metro and buses.

South facade

• Center distance between pylons - 30 m

Hyperloop technology and components Tubes Vacuum Pylons

II. transit O-shapedstation

Capsule (Pod) Solar panels Capsule reversal system

• environmentLow-pressure

• 30 m length

• Reinforced concrete

• 2.7 m diameter

Theoretical models of the architectural and planning organization of Hyperloop stations

• Turning and lifting system

V. dead end station with turningsingle-levelmechanism

• 28 passengers

I. dead end O-shapedstation

VI. dead end station with turning and lifting mechanism, two-level

• Turn-around area

• Solar panel modules would be used to power the hyperloop system

VII. crossroad station with turning and mechanismlifting

III. transit station with tracks in the single-levelmiddle, IV. transit station with tracks in the two-levelmiddle,

• Protection from weather and traffic crossing

• Steel/concrete/carbon fiber

ОССОСНАРПРТАПААЖИРВ ОСООНУРШРАМГТРАНПРТА ЗЕЪВД / ОССОЗЕЫВДНАПАРКВКУДЛЯПААЖИРВ ЙОПЖАРНЫТРАНСПОРТ ОСООНЧИЛГТРАНПРТА ООСТРУДНТКВ ОСОООЗУРГВГТРАНПРТА ОЗООЭЛЕКТРПЕДВ ОООЗАНЕМНГМЕТР ОЗОПХЫНМУКААВЕДВЗОООСОССХЕМАДВИЖЕНИЯТРАНПРТАУЛВНЫЕБНАЧЕНИЯ ОССОКРАПВКАДЛЯПААЖИРВ ОСОКРАПВКАДЛЯПЕРНАЛА ООЗЗАРГРУЧНАЯПЛЩАДКА ОСОООЗОСТЯНКАГРУВГТРАНПРТА Ж / ИТУПД ( ЮССУЩЕТВУЩИЕ ) ОООЗАНАКТТЕВЕМНГМЕТРППК Аэропорт Внуково Legend Traffic diagram: electric overgroundtrainmetrovacuumtubetrain routes of vacuum tube train parking for removalparkingcheckpointpassengersforstaffofsolidwaste unloading platform truck railwayparkingtracks (existing) overground metro

Мзесъдсинскоо ессош оросвтну Боровскоошоссе Вароорэапнуково йКМоскваиевскивокал Site plan

Ground floor plan ( plan at el. 0.000) 1 2 3 2 2

1 - public space; 2 - Hyperloop capsules garage; 3 - storage area; 4 - departing area; 5 - arriving area; 6 - acceleration zone; 7 - braking zonepedestrian move 2 2 2

Fifth floor plan

(plan at el. +49.500) traffic scheme of departing Hyperloop capsules traffic scheme of arriving Hyperloop capsules 2 2 2 1 1 4 5 6 6 6 7 7 7

Fourth floor plan

(plan at el. +40.500)

Legend

vacuum transport station on the 2nd, 3rd, 4th and 5th floor; repair shop and warehouse area on the grond and 1st floor

traffic scheme of departing Hyperloop capsules

traffic scheme of arriving Hyperloop capsules

capsulesforautomated

Section 1-1. Fragment 1 Section 1-1 public area automated capsulespassengergarage overgroundmetro

Route tubes

Sun protection system

Perspective Automated garage for capsules Structural systemGlass with Vacuumphotovoltaicintegratedcellspumpblocks

DateSolar02Sculptingofcreation: 2021

Greenhouse for growing vegetables and plants for residents

Public area

Terraces with solar panels

floor

Programs: Rhino+Grasshopper, Revit, Lumion

Type: Idividual work

Solar glass

Commercial ground

Project status: Student Project in Politecnico di Milano Prof Simone Giostra and Matteo Clementi

Solar Panels Semi Privat Area for UndergroundPublicResidentsGardenAtriumparking

Results from the optimisation of building form provide the basis for the integration of costeffective, low-maintenance façade energy systems, such as photovoltaics and solar thermal.

EPW FileSurroundingGeometryGeometryDesigned GeometryFARAnalysis Radiation/floor area Radiation/facade area SurfaceOpenArea/VolumeSpace% Radiation Analysis Spatial Daylight Analysis Filtering photovoltaicsRadiationUsefulDividingandsolarthermal Shadow mesh Solar meshRadiadion RadiationMeshThreshold DaylightMeshAutonomy

The project investigates the relationship between form and solar energy in buildings, using form-finding strategies based on solar radiation to shape a mid-rise housing building for New York City. The project explores the potential for passive, adaptive and active solar design principles to achieve comparable results in terms of energy performance and visual comfort in buildings, based on optimised shape rather than on mechanical systems.

Shadow Analysis

Environmental Analysis inGrasshopperAnalysis

01_Optimization_DariaSergeeva Scale 1: Urban Morphology & Siting

Radiation

Geometry Analysis Threshold Analysis

FacadegreenoutdoorsolarphotovoltaicsSystemsthermalterrace/roof

Radiation

Scale 2: Building Mass & Interior

- Surfaces that receive more than 400 kWh/m2 over the year will receive PV panels (Electricity).

Chunk Radiation Analysis

Chunk Geometry

greenoutdoorsolarphotovoltaicsthermalterrace/roof Scale 3: Building Façade & Cladding

Threshold on solar radiation falling on the envelope:

- Surfaces that receive 200 to 400 kWh/m2 over the year will receive solar thermal collectors (DHW coverage).

Radiation Threshold Analysis Facade Systems

1st floor plan

Chunk. Perspective

Typical floor plan

Greenhouse floor plan

Old03Space to a New Place

Date of creation: 2022

Prof Vesta Nele Zareh and Prof Nadja Haupl

Programs: Revit, QGis, Illustrator

Project status: Masrer Thesis in Hochschule Anhalt

Type: Idividual work

The project of reconstruction of Zavod Iskozh factory in Moscow into a modern multifunctional complex with public, residential and working spaces.

The plant territory is located in the west of Moscow, on the very border of the Historicalcity.function of the factory was production of artificial leather and film materials.

Photos of exicting situation

In 2017 historical buildings of XIX - begining of XX centures became objects of cultural heritage of regional importance.

In 2003 production was moved to another location. Now the builbings are rented out for storage, car services, shops and garages. The site is closed for citizens, some buildings are abonded.

Site analySiS

Vitebskaya Street runs to the west of the plant, Dorogobuzhskaya Street to the north. To the north of the factory territory passes the highway Mozhayskoe shosse. The metro station is located in the north; the nearest railway stations are Setun and Rabochiy Poselok. There are several bus stops near the site. Thus, we can conclude that the main flow of visitors will come from the north.

Zoning Plan

Zavod Iskozh factory is located at the intersection of residential, industrial and natural urban areas.

It sits in the valley of the Setun River on borders of protected natural area along the river. On the factory territory, there is a wild park and a lake. To the south of the factory, there is a famous Kuntsevo cemetery.

Traffic Plan

on the site New outsidebuildingsthesite

New NewBuildingsbuildings

Existing situation

Buildings of industrial heritage

Border of factory site

Buildings to demolish

Funсtions

Offices Public working area Coworking School Hotel Residential Commersial Sport Market Children Production Event space

Public Area Recreation area for coworkers Sport Recreation area near water Children Semi-Privat area for residents Privat Terraces

Outside Areas

Site of the Zavod Iskozh Natural protected area Power lines Legend Entrance to the site Site Plan

Illustration

Four storey open plan building Building adjecent to another building 1860 sq m Education,workshopsoffices,

Public space, workshops, exibitions, coworking, event space

Suitable functionality

EXICTING BUILDINGS. DEPENDENCE OF THE NEW FUNCTIONAL PURPOSE ON THE STRUCTURAL TYPOLOGY

Photo

Coworking, multifunctionalexibitions,space

Two storey open plan building

Typology

One storey open plan building 1230 sq m

Illustration2930The

historical building of the production shop with workshops is adapted into coworking space. It provides a full range of functions, including an open workplace, offices, meeting rooms, a kitchen, etc.

proDuction Shop 18600 11500 13000

Illustration 28

Exicting structure

Exicting structure: cultural heritage

First floor Ground floor

Four storey open plan building Building adjecent to another building 1860 sq m Education,workshopsoffices,

Two storey open plan building

Illustration2930Paint

Coworking, multifunctionalexibitions,space

Public space, workshops, exibitions, coworking, event space

One storey open plan building 1230 sq m

Paint Mill 18600 11500 13000

Photo Typology Suitable functionality

Illustration

Illustration 28

Mill can be considered a symbol of the place due to its facades with the dominant tower. It is converted into a public space with an event space, cafe and free seating-working areas. The building has a free layout, so it can easily change and adapt to different functions and events. Skylight allows providing different space distributions - Option 1 with open space in the middle and closed rooms on both sides of the building and Option 2 with closed rooms in the middle and open spaces on both sides.

Ground floor . Option 1

Exicting structure: cultural heritage

Exicting structure

Ground floor . Option 2

Work projects

Place: Moscow, Russia

Facades04 of residential complex

My role and contribution: Developed drawing sets for facades (3 buildings out of 7)

Date of creation: 2019-2020

Programs: Revit

Team: Kabanov A., Ovod T.

Project stage: construction drawings

Team: Brizgalov I., Shuvalov A.

DateAquapark05ofcreation: 2020

Place: Perm, Russia

Project stage: concept My role and contribution: fitness centre plans, 3d model, facade concept design Programs: Revit, Illustrator

waterAquaparkzone

Fitnes centre

The projected complex includes: water park, hotel, fitness center. The dominant volume is directly occupied by the water park. The hotel and fitness are adjacent to it through a common lobby-foyer. The spacious lobby serves as a link between all elements of the complex. It provides access at the 1st floor level to the cash zone of the water park and the reception-fitness and hotel.

The building is a monolithic volume, high-rise accents are the hotel and the zone of water slides of the water park. The entire structure is surrounded by the current form, referring to the water element and waves, as well as facade lamellas resembling underwater plants.

First floor planGround floor plan Hotel

areaadministrationEntranceAquaparkand

First floor plan

Ground floor plan

Fitness center

АК +19.700 +12.860 +13.500 122950 +25.790 К А +0.000 122950 +10.180 +25.710 Main FacadeFacade

Architectural competition projects

RetailDroneport.06Distribution Centre with drone stations

Competition: Laka Competition ’20

With the development of technology, the delivery of goods using commercial drones is becoming more and more realistic. However, the use of drones requires special infrastructure and appropriate architectural solutions for warehouses. This project proposes a Retail Distribution Centre with a drone station. The vertical model reduces the distribution centre footprint and is suitable for the urban environment. Moreover, it helps to reduce drone battery consumption by eliminating ground take-off.

Year: 2019

Programs: Revit, 3ds Max, Vray, Photoshop

Architecture that Reacts

Individual or group work: idividual work

West facade

Goods Acceptance Area Warehouse areaArea for

Theoretical models

loadingdistributiongoodsandtodronesModelI

The drone station consists of 5 towers and 1-storey part. The process of acceptance goods from automobile transport and the picking of orders takes place in the 1-story part. There is a staircase and elevator section, a vertical conveyor for goods and shafts for utility lines and systems in the central structural core of the towers. Ready for shipment, the parcel is delivered to the top via the vertical conveyor, then to the drone via the horizontal conveyor. When the drone departs or arrives, the cell opens with the help of a lifting and folding mechanism, forming a platform for landing or takeoff. When the drone is already in the building at its parking lot, the cell closes, protecting the parking lot from external influences.

Model II Model III

Section 1-1

Typical floor plan

Section 2-2

Thank you for considering my application

sergeevadaria0401@gmail.com+4917628349978