DMYTRO ZHUIKOV ARCHITECTURE portfolio 2015
PERSONAL DETAILS Name: Date of birth: Domicile: Residence permit: Contact details: Marital status:
Dmytro Zhuikov 30.10.1983 Hohenzollerndamm 35a 10713 Berlin, Germany Aufenthaltserlaubnis +49 176 807 640 51 dmitryzhuikov@gmail.com Married
REFERENCES
PROFESSIONAL EXPERIENCE
Tarramo Broennimann / Partner at Group 8 / Geneva, CH / tarramo@group8.ch +41 22 560 88 88
Group 8 / Internship / Geneva, CH /
Krassimir Krasstev / Professor at DIA HS Anhalt / Dessau, DE / krassi.dia@gmail.com +36 20 526 8865 +49 174 696 1127 Andrea Menardo / Senior Engineer at Buro Happold / Berlin, DE / andrea.menardo@burohappold.com +49 01761 860 9085 Joris Jakob Fach / Professor at DIA HS Anhalt; Harvard GSD / joris.fach@gmail.com Cyril Matiash / Principal at Roshen architecture dept. / Kiev, UA / matiash@maass-a.com matiash@roshen.com.ua +38 050 221 05 37
activities stages
06.01.14 - 30.09.14 architecture of the public, educational and residential buildings. competitions, prelimenary designs.
Roshen CC / Architect / Kiev, UA / 21.03.11 - 20.07.12 activities project management, architecture of the office and retail buildings, construction supervision stages concept, detailed design, construction
Baum / Project leader / Kiev, UA / activities stages
01.07.10 - 18.03.11 architecture of the single-family and multi-family houses concept, detailed design
ZAarchitects / Project leader / activities stages
30.11.09 - 01.10.12 architecture, interior and landscape design, product design concept, detailed design, construction
Drozdov & Partners / Architect / Kharkov, UA / activities stages
22.07.07 - 30.09.09 urbanism, architectural design of the offices, retail and public buildings, dwelling, interiors concept, detailed design
Praktik / Jnr. Architect / Kharkov, UA / 06.10.04 - 01.11.06 activities: design of public interiors, 3d and graphic layout, draft drawings stages: detailed design, construction
Curriculum Vitae
EDUCATION
KEY COMPETENCES
DIA HS Anhalt / M.A. Arch. degree / Dessau, DE / 2012 - 2015 Field of training: Thesis project:
general architecture “Smart Masonry”
KSTUCA / Specialist’s degree / Kharkov, UA / Field of training: Thesis project:
2006 - 2007 general architecture “Transformation of abandoned industrial facility into the multifunctional public complex”
KSTUCA / Bachelor’s degree / Kharkov, UA / 2000 - 2005 Field of training:
-Architectural design -Masterplanning -Design of interiors -Product design -Working project development -Computational design -Digital fabrication -3d modelling and rendering -Model making -Sketching -Diagrams and graphic layout -Project management -Construction supervision
general architecture
COMPETITIONS / EVENTS / WORKSHOPS SKILLS
2014 / designboom.com / Death innovation competition / “Memory museum“ project, participant 2013 / Fuga gallery / Budapest, HU / Performance-driven architecture exhibition / “Mars Colonisation” project 2013 / AZURE AZ / Toronto, CA / Awards of Merit, A+ Student Work / “Off-grid” project 2013 / jovoto.com / Berlin, DE / Coworking competition, finalist 2010 / Canactions 2010 / UA / Workshop participant 2010 / Seoul Design Fair / “Sex Box”, competition participant
Software/ AutoCAD (2D) SketchUp 7 Pro Rhino+Grasshopper Python 3ds MAX 8 +V-Ray Archicad Vectorworks Photoshop Illustrator Indesign Ecotect Office programs O.S.
Win/Mac
Languages / English German French Ukrainian Russian
PUBLICATIONS Mars colonization /
fluent B1, active learning A2 native native
Daily Mail; Daiy Telegraph; www.dezeen.com; L’Obs Voomy IT-park / www.archdaily.com; www.detail.de Coworking table / www.designboom.com
Academic project
Status Location Function Students Advisors Critic Year
Academic project Berlin, Germany Public, Industrial, Office Dmytro Zhuikov, Arina Agieieva Krassimir Krastev, Joris Fach Andrea Menardo 2014-2015
Smart masonry / Berlin, DE /
The Smart Masonry is a structural design and a construction method, based on traditional masonry techniques. It deploys the digital optimization to minimize dead-weight of the skeleton and the robotic construction technique to assemble complex geometry. The proposed method is linked to the purpose and place of the building-Makers Center in Berlin. The machinery, which used for the construction of the building, will be preserved as its a core and will drive its the main function. The structural concept represents one seamless mesh, instead of walls, columns, beams, etc. It is designed as a minimal surface, whose stress-pattern is optimized and materialized as a load-bearing pattern. The robotic construction station with robotic arm manipulators allows to build a complex geometry floor-by-floor. It is compact and labor-effective comparing to traditional methods, and fast comparing to 3d printing. The discretization of the load-bearing skeleton is implemented with unique concrete elements, whose geometrical and material properties are varied gradually regarding local structural demands. ‘‘Foam Casting’’ is a new resource-effective technique. It was elaborated in order to produce above mentioned unique elements.
Academic project
STEP 1 / Mesh stretched to support points
STEP 2 / Dynamically relaxed mesh (kangaroo)
STEP 3 / Stress analysis (millipede)
STEP 4 / Tesselation
STEP 5 / Thickness analysis (millipede)
STEP 6 / Application of thickness and offset
Structural design sequence
STEP 1 / The foam rubber cut with 4-axis hot wire styrocutter
Fabrication sequence
STEP 2 / The foam rubber elements are saturated with the portland cement solution
STEP 3 / Masonry elements saturated with cement are hardened
STEP 4 / Construction of the structure
Smart masonry / Berlin, DE /
Fabricated 1:10 fragment of the building
Fabricated 1:10 fragment of the building Robotic station Hood
Rail (temporary) Racks with hardening elements
Empty racks
Any floor under construction
Empty tray
Rack with soaked elements
Bracket block Ground floor
Hot-wire foam cutter Draft rubber foam
Impregnated element
Concrete tank
Revolving table
Robotic construction sequence
Academic project
Relaxed surface
Structure
Friedrichstrasse facade
Programme scheme
Smart masonry / Berlin, DE /
Section
4-th floor plan
Group 8
Faculte de droit / Fribourg, CH /
Description: Status Location Function Program Client Architect Team
Year Activities
Competition, 4-th place Fribourg, Switzerland Low faculty and library 20 000 sq.m. University of Fribourg Group 8 Adrien Besson, Tarramo Broennimann, Lauren Ammeter, Tomas Clavijo, Dmytro Zhuikov, Shan Long, Petros Lazaridis, Marchin Forysijevich, Louis Gamma-Perreira. 2014 Architectural design, Facades, 3D model, Computation, Mockups, Diagrams
A competition project for the University of Fribourg. New complex should house faculty of the law, mensa, and arrange the campus space in between the old University building and a new site. New building should be also an icon of the university. Site located near the main train station, on the steep relief. On the site itself, medieval tower Tour Henri is located. An urban tissue in this part of the city doesn’t have clear structure - buildings of variety functions, sizes and density surround the project site. The principal functions to be housed in the building are: Classes, Library, Offices, Common spaces, Canteen. Tight programme and restricted plot size have determined occurrence of the tower. Height is restricted by the height of an existing neighborhood office tower. Its circular shape is a neutral compromise among diverse surrounding, and it suits perfectly for the library and offices. New building joins the dialogue of the existing high-rise around. A flat basement stretched along the railway and oval mensa from the other side form a narrow, almost medieval street that leads to the main entrance of the old university building passing by Tour Henri. Inside functions distributed as follows: ground, 1st floor - classes; 2nd-5th floor - library, 6th floor - public space, upper part - offices. The facade is dedicated to the passive climate issues. The slabs enlarged and shifted towards the south, these cantilevered volumes protect from the vertical sun rays during the summer. From the east and west glazing is gradually replaced with rotated concrete panels that block horizontal sun rays.
Group 8
Masterplan
C0. 20m2
Typical library floor plan
Typical office floor plan
Faculte de droit / Fribourg, CH /
Section
Section
Solar access/ summer
Solar access/ winter
Solar access
Personal project
Voomy IT-Park / Kharkov, UA /
Description:
Collaborator Year
Renovation Voomy Under construction Kharkov, Ukraine Office, public 13 000 sq.m. Zaarchitects Dmytro Zhuikov, Arina Agieieva, Yuri Bendasov, Eugene Chernopissky Arcstone 2012
Position
Project leader
Type Client Status Location Function Program Architect Team
Project provides an environment for the IT business-incubator in Kharkov city. Abandoned soviet concrete administrative 8-floor building is a skeleton for all functions. The business incubator is a place for yuppies, a multi-component environment that creates favorable conditions for the development of the new ideas. Design should stimulate communication between inhabitants, casual acquaintances, experience sharing, and house social events of all kinds. Diversity of the new tasks have predetermined total redesign of the internal spaces, replacement of the old facades and addition of the new volumes. New functional arrangement is following: basement, 1-st, 2-nd and 3-rd floors of the main building contain public, representative and retail functions. On the 4-th and 5-th floors there is a heart of the whole facility - coworking zone for IT-specialists and small IT-enterprises. Floors from 6-th to 8-th assigned to let. Despite the location on the busy street, behind the building swimming pool, pedistrian fountain, and outdor cinema are located. Main and lateral facades are replaced with the new large-perforated skin. Pattern formed by the circular windows, at the evening is able to act as a kind of the low-resolution LED-screen; and to show running advertising text, or primitive video games.
Published in:
Personal project
Under construction
Before reconstruction
Visualization
Voomy IT-Park / Kharkov, UA /
Principal facade
Typical floor Plan of the typical coworking floor
Ground floor Plan of the ground floor
Personal project 31,600
31,600
28,435
28,435 27,600
24,000
24,000
20,400
20,400
16,800
16,800
13,200
13,200
9,600
9,600
728
7,170 6,000 5,050 3,770 3,000
1,500
0,000
0,000
-2,550 -3,600
Section
Voomy IT-Park / Kharkov, UA /
Under construction / Facade
Under construction / Facade
Under construction / Inside
Under construction / Facade
Under construction / Inside
Personal project
Description: Client Status Location Function Architect Team Year
Ivan Patachin Concept Mila 23, Romania Nautical sport center Zaarchitects Dmytro Zhuikov 2013
Position
Project leader
This sketch project is a center for the nautical sports, dedicated to canoeing and kayaking. It is located on the border of Ukraine and Romania. A pneumatic shell was employed, in order to cover large-span area fast and inexpensively. The structure itself is light-weight and transparent, all functions inside are scattered in a manner of a small compact town, giving sense of freedom and comfort all year around.
Inflatable shell / Mila, RO /
+
1. All functions are arranged in a kind of small cozy town. Hostel distributed in the country houses; museum exhibits are demonatrated in the park;
+
2. All these facilities are covered with transparent 3. Bubble mentioned above formed by conflation of light vaulted bubble, that serves as a giant weather three domes. Conflation creates one common roomy space. shield. 1 3
4
3
5
outside 11
air 2
inside 4. Structurally bubble represents a pneumatic framework made of ETFE film.
7
8
9
10
Personal project
Holocaust Memorial / Kovel, UA /
Description: Status Client Location Function Program Architect Team Year
Under construction American Jewish Cometee Kovel, Ukraine Memorial 1075 sq.m. Zaarchitects Dmytro Zhuikov, Arina Agieieva, Anton Oliynyk 2014
Position
Project leader
This project is a part a pilot program to protect and memorialize unmarked graves of Holocaust victims killed in mass shootings. The project will foster awareness of the significant number of Holocaust victims of mass shootings, who were killed at the edges of forests, villages, towns, and cities throughout Central and Eastern Europe. The design sets opposition between the explicit broken outlines of mounds and smooth, calm lines of the srurrounding nature. This static dynamic gives a hint to the distinctive history and energy of the space. Thus, visibility of the burial place is underlined. Randomly inclined faces create effect of ever-changing contours. The path from the parking leads to the central platform, and not directly adjacent to the mounds above the graves. This solution should prevent penetration onto the mounds. Two distant mounds are visible from the bench on the platform. Stella with a memorable text is a low concrete surface, that truncates the hill above the large grave, nearby the central site. Mounds are made of the rammed earth and protect the remains. All three mounds are covered with a large scale triangulated mesh. The path, central area and the bench are subdivided following the same principle of triangulation.
Personal project
Masterplan
Detail
Holocaust Memorial / Kovel, UA /
Under construction
Under construction
Under construction
Under construction
Drozdov & partners
Description: Status Location Function Program Architect Team
Year Activities:
Realized Kharkov / Sumskaya str. Department store, offices 23400 sq.m. Drozdov & partners Irina Goydenko, Oleg Drozdov, Vyacheslav Zhemir, Aleksandr Zhydkov, Dmytro Zhuikov, Denis Moseyko, Aleksey Yakymenko 2008 Architectural details, Interior design, Construction documentation, 3D models
The building of a commercial center encloses a historic quarter within its red lines and provides a transition between two existing scales. the volume of the building is pierced by an ellipsoid atrium with a peninsular tower, housing restaurants. the atrium occupies one fourth of the building area, and in essence, is a prototype of the quarter inner space. the roof of the fourth floor is a recreation space with its center occupied by a garden over the atrium.
AVE-Plaza / Kharkov, UA /
Academic project
Mars colonization / Mars /
Description: Status Location Students Tutor Year
Academic project Mars Dmytro Zhuikov, Arina Agieieva Prof. Krassimir Krasstev 2013
Project looks for possibility to build permanent settlements on Mars using robotics and local materials, to reduce the price and risks. There are several restrictions, such as unreliability, high costs, and size limitation of cargoes that can be delivered there. Construction works on the Mars are restricted due to the harsh envitonmental conditions. Idea of this project is to split construction works on two general steps: 1. Creation of overall big shelter; 2. Equipment of the shelter with residential, technical and other units. First part is to be done by the robots using only local materials. Martian surface is primarily composed of the basalt - igneous rock formed from the rapid cooling of basaltic lava. During the cooling it forms tightly packed hexagonal in section columns. Digging robots shall bore cave system using benefits of this topology, that is inspired by the Fingal’s Cave. This solution allows to avoid supply from the Earth, only robots are needed.
Published in:
After the cave is done, astronauts are sent to the Mars. Using a ready-assembled compact facilities, they arrange water and oxygen supply from the soil glacier and mount basalt processing plant. Plant is supplied with the crushed rock, and gives basalt wool and roving as an output. The walls of the cave are insulated with this wool. Another weaving robots are making the spatial spider-like web using roving. It is used as a space and structure to hold the residential and technical facilities. According to the NASA, some martian soil are appropriate for cultivation of certain agricultures. When the construction is finished and contour of the cave is enclosed, it is possible to arrange agricultural processes and supply colony with food.
Academic project 1. Rocket with digging robots are sent to the Mars
2. Robots drop-off on the surface
3. Robots analyze basalt columns on strength value, then each chooses a weakest pillar that equidistant from the others - it is a start position
4. Robots drill basalt, moving down and increasing diameter of withdrawn rock with each step, until it reaches strong pillars that remain as columns
5. Chaff set aside to form network of the rampants, in order to protect skylight holes from the wind and dust
6. After caves are ready human expidition rush to the Mars
7. Astronauts finish the construction and arrange technical facilities as water, oxygen, basalt processing line, etc.
8. Using generated basalt roving, robots weave spatial spider-like web, that will be used as spaces and construction to hold domestic and technical facilities
Colonization sequence
Mars colonization / Mars /
Academic project
Off-grid city / Frankfurt, DE /
Description: Status Location Function Program Student Tutor Year
Academic project Frankfurt, Germany Willow parks and public biomass powerplant 87 000 sq.m. Dmytro Zhuikov Prof. Joris Fach 2013
The design claims to abridge the gap between production and consumption. Programme elaborates a new deploy of industrial, public, leisure, commercial and agricultural functions as a new sustainable approach to the urban planning. Exposed energy and food production considered as a beauty, and introduced into the city again. Melted with common city facilities it gives a new value to the environment. The project site is Ost district, in Frankfurt am Main. It is former industrial area, where commercial functions replace old industrial facilities. Project solution is to establish a self-sufficient restaurant, that supplies itself with a food cultivated in the agricultural park and with an energy. Pyrolysis gasification power plant on the willow wood is used as an energy source. To achieve required 111 382 kW/h there is 8.7 ha of willow field needed. To produce them there will be willow parks in the abandoned areas of Frankfurt Ost. It will also gentrificate the area. Peculiar feature of the parks is constant change of the trees, as a result of 4-year growing cycle. The greenhouse-restaurant located on the northern bank of the North Channel closer to public facilities, power plant confronts restaurant on the south bank, which is an industrial area. They both connected with a pedestrian bridge.
Published in:
Energy production with this technology requires a vast space to store the firewood. To save space it is proposed to create a vertical storage, that is well-connected with the public observation staircase, decks and smoke stack. While visitors climb up, they observe the energy production - from the willow fields far below, to the willow bales stored in the tower.
Academic project
Masterplan / location of the restarant, agricultural park and powerplant Masterplan
1. willow planting. row step. . . . . . . . . . 3m stalk step. . . . . . . . 0,5m
2. willow growing. duration. . . . . . . 4years
3. willow harvesting. season. . . . . late autumn productivity. . . . .15t/ha mode. . .bales1,6x1,3m
4. storing at field. season. . . . . late autumn productivity. . . . .15t/ha
5. transportation to the powerplant.
6. storing at powerplant. drying duration 2months
7. bales are milled into the chips.
8. chips are screened.
hea t
8. chips are screened.
9. chips are batched in the feeder.
10. chips are burned in the gasifying boiler output: gas byproduct: steam, ash
11. outgoing gas is cooled in the heat exanger byproduct: heat
12. cooled gas is filtered
13. filtered gas is compres sed in the compressor
ele ctri ci
ty
14. compressed gas is burned in the cogene ration microturbine output: heat, electricity
Production cycle
ng nti pla
autumn
summer
ing spr
win ter
1-st year
g
win ter
in spr
2-nd year
willow field cycle
summer
autumn
summer
autum n
g
4-th year in spr g
win ter
harv estin
win ter
in spr
3-rd year
autumn
summer
g
Off-grid city / Frankfurt, DE /
willow park/ 3-rd year
willow park/ 1-st year
1st Season
4th Season
Powerplant tower
5-th floor observation deck beam crane
concrete shed
hot-rolled metal profiles spatial framework (internal)
agricultural equipment garage
willow bale ducts public pedistrian bridge to observation tower
public stairway to observation decks vertical bucket conveyor willow bale hot-rolled metal profiles spatial framework (external)
service area
temporary storage
grinder boiler horizontal coveyor belt (from dump) powerplant room cooler ground level
Anatomy
Personal project
Memory museum / Singapoore /
Description: Status Location Function Program Architect Team Year
Competition, concept Singapoore, ERP 25 CTE / Merchant Road Museum, DNA storage 0.95 ha Zaarchitects Dmytro Zhuikov, Arina Agieieva 2013
Singapoore is a city-state located on the very compact territory with one of the highest density of population in the world. It has only one cemetery in use and requires the new solutions. Project solutions are focused on three purposes: 1. Improvement of the memory. Using both, material and non-material to make a cloud of content around each person that pass away. 2. Compaction. There is no more reason to keep remains, since one hair contains all genetic information, one memory card stores all media data about numerous people. 3. Socialization. No more empty graveyards. Life story of any single person is shared with those who alive. In this new concept a cemetery is a vibrant public domain. It is not a place of silence, it is the place of the dialogue. The Memory Museum is not only the new kind of funeral architecture, but the new funeral culture. A memory preservation and dead body are separated. After traditional funeral rites, it is proposed to take DNA-example and some valuable personal thing (e.g. – ring, medal, watch etc.). A corpse to be cremated and dispersed outside the city. The DNA-capsule is stored in the museum together with the personal thing. The capsule has a 2D-code. Anyone with a smartphone can read this code and access media content about deceased. It is a non-material memory, while the valuable thing exhibited nearby gives a feeling of materiality and information for the further generation. The core of the tower is an atrium. Around the atrium twine two helicoidal pedestrian ramps. A parapet-storage for the DNA-capsules is located in between these two ramps. Above, there is a showcase with the exhibits.
Personal project
Memory museum / Singapoore /
Roshen
Description: Status Location Function Program Client Team Year
Realized Vinnytsa, Ukraine Souvenir shop, museum entrance group 50 sq.m. ROSHEN confectionery corporation Dmytro Zhuikov, Cyril Matiash, Alexander Sidnev 2012
Position
Architect
Current project is an upgrade of existing entertainment museum entrance, dedicated to production of the chocolate and sweets. Souvenir shop is a principal part of the arrangement. Way out of the Museum is organized via this shop. Pattern of the circular elements is a distinctive interior feature, that cover the ceiling and the walls. At certain places pattern generates the cylindrical shelves to exhibit the goods. Lower perimeter is a closed storage for the packaged goods. Cash desk visually integrated into the lower perimiter.
Souvenir shop / Vinnytsa, UA /
Personal project
Coworking table
Description: Status Purpose Design Year
Shortlisted in the international competition Improvement of coworking environment Dmytro Zhuikov, Arina Agieieva 2013
The project’s purpose is creation of the object that increases comfort and functionality of the coworking spaces. In such spaces following specific aspects of the work are distinguished: - People can often leave the place for a period from one day to several weeks. Thus the personal belonings, laptop etc. is not desirable to leave on the table - it is necessary to store it in personal locking box. It is inconvinient and takes time. - They often change a workplace location as tasks change quily. For each project different specific teams shell be fromed. - Lack of sound protection. Proposed design solves these problems and gives following advantages: - Go away for days, leaving stuff and valuables - just close the cover. - Quickly remove the legs and move the table with the things inside to the other room, floor, building. - Opened cover forms a soundproof and personal space - No mess with cables - there are hidden built-in three outlets, space for wires, adapters and a LED lamp. To the outlet in the room table connected with one wire.
Published in:
Personal project
hinge stopper
belts fasten adapters and cables to the cover bottom, that allows to open/close it without pulling cables out
section
outlets
laptop adapter
antomy
cover/ die casted plastic soundproof covering
embedded LED light (from below) lock
hinge
handle for carrying table body/ die casted plastic
hinge
detatchable wooden leg lock
place for wires and adapters embedded outlet electric wire
Coworking table
1 100
1 100
front
top
670
670
700 850
1 100
Academic
Computational experiments, fabrication, mockups