Sintija Jonikane
PORTFOLIO
2 Sintija Jonikane I Portfolio
Zimmer Gunsul Frasca Architects LLP
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19
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SIA “Arcconsult“ 21
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SIA “Legzdins un partneri“
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SIA “VVV Architecture“
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09.2018.-current
Projects at the University of Liechtenstein
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12.2016.-05.2018.
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08.2014.-11.2016.
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10.2013.-04.2014.
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Silver Architecture Bureau
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09.2011.-07.2013.
Architect Bureau Agris Padelis-Lins 02
01.2011.-09.2011.
08.2005.-03.2009.
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Sintija Jonikane I Portfolio 3
0 l evel 0 l evel level0 l evel -1-1level 0 l evel
RECONSTRUCTION OF THE SITE
Baznicas street E le va tio n i n 8, a xLiepaja, i s A - D Latvia EE ll evati evati on on ii n n axi axi ss 11- 10 10 E l evati on i n axi s 1- 10
OBJECT: BAZNICA
B uil ding wa s b uilt i n 19 th C e ntur y B uil ding wa s b uilt i n 19 th C e ntur y
E leElevation va tio i n ainx1-10 iaxis s A- D Facade innaxis 1-10
Bu
Historical photo of the 1950) 1950) Historical photo of site the(around site (aroud
SS ec ii n Facade in 1) axis A-D ec ti ti on on BB- B B (( el el evati evati on on n axi axi ss 10101) E le va tio n i n a x i s A - D S ec ti on B- B ( el evati on i n axi s 10- 1) E le va tio n i n a x i s A - D
1
R ERCON E CON S TSRU T RU CTCT ION IONO FO FS ITE S ITE
The site is located in historical city centre of the city Liepaja (Latvia). Currently the site is empty, however, after careful historical documentation investigation it was found out that the Church house in famous German craftsmanship style Fachwerk construction there was once at these streets intersection - corner. Therefore the new building concept was drawn on existing building reconstruction with slight alterations from original, that is the basement floor were slightly elevated in order to house public ground floor uses (bank), as well as the roof windows were added. The new addition, were designed as an eclecticism style facade with bricks rendering patterns in order to resemble and fit in in the rest of neighbourhood used traditional materials and craftsmanship.
BAZNICAS STREET 8, LIEPAJA / technical project B uil ding wa s b uilt i n 19 th C OBJECT: e ntur y
RRERECON ECON CON S STSTRU TRU RU CT CT CT ION IO ION NOO O F FFS SITE SIT IT R E CON S T RU CTIO N O F
01
3 3
R E CON E CON TS RU TCT RU CT CT ION ION OF O FITE S ITE S ITE RREERCON CON SSTTSRU RU CT ION ION OF OF SSITE
OBJECT: BAZNICAS STREET 8, LIEPAJA / technical project
OBJECT: - 1 level OBJECT: BAZNICAS technical project project BAZNICAS STREET STREET 8, 8, LIEPAJA LIEPAJA // technical - 1 level -- 1 1 level level
R e c o n s truc te d b uil ding
OBJECT: BAZNICAS STREET 8, LIEPAJA / technical projec R e c o ns truc te d b uil ding
1 level
level 1 level 0 0level
OBJECT: BAZNICAS
1 1 level level
BAZNICAS B uil ding wa s b uilt i n 19 th C OBJECT: e ntur y R e c o ns truc te d b uil ding R e c o ns truc te d b uilat ding Visualization Proposed building the site
RECONSTRUCTION OF THE S Baznicas street E le va tio n i n 8, a xLiepaja, i s A - D Latvia
Section (Elevation in axis 10-1) Section B-B B-B (facade in axis 10-1)
B uild B uild
SS ec ec ti ti on on AA- A A S ec ti on A- A
1 level 1 level 2 l evel
2 l evel 2 2 ll evel evel
This project (Elevation and plans numerous initial design options, Sketch Design and Construction documents, collaboration with other engineers) was done entirely by myself under the main architect supervision. 4
Sintija Jonikane I Portfolio
level 2 2level
E le va tio n i n a x i s A - D
Section Section A-A A-A
Si te pl an Site plan
Histo Si te p l a n Facade axisA-D A-D Elevation in in axis Si te pl an Si te pl an
Re
E le va tio n i n a x is A - D E le va tio n i n a x is A - D
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REGIONAL MUSEUM Brivibas street 39, Ogre, Latvia The main facade towards the street
02
This was the commission of Ogre City to design a new museum in historical city centre. The building layout was designed as a result of program, available site as well as height limits. The emphasis was on elevation faced towards the main pedestrian street which was designed by architect in a playful manner as a typical neighbourhood Site plan wooden elevation supplemented Site plan with a transparent and contemporary glass curtain wall systems for the main, entrance and exhibition hall lightening, as well as the outdoor stairs to allow the museum visitors access the buildings large terrace (ground floor green roof) on south east.
Visualization of the Ogre city J. Andzans) Building visualization (bymuseum(by J. Andzans)
0 level
Main elevation
Elevation in axis A-J
The main facade towards the street
1 level Elevation in axis J-A
This project was done in team o four - me, main architect and two other assistants). I had an opportunity to design several options for main elevation design, initial programming, floor plans design and latter later some adjustments to elaborate the final CD plans, as well as I designed and coordinated the site plan design (fire way access, utilities etc.) with other project developers. 6
Sintija Jonikane I Portfolio
Elevation in axis 8-1
Site plan Section 4-4
Section 1-1
1 level Sintija Jonikane I Portfolio
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BUILDING RECONSTRUCTION BUILDING RECONSTRUCTION Pumpuru street 5, Liepaja, Latvia Pumpuru street 5, Liepaja, Latvia Photo of the building before reconstruction
3 BUILDING RECONSTRUCTION
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Pumpuru street 5, Liepaja, Latvia
This building reconstruction was done for a client in order to adapt existing building layout for the ofSection 1-1 fice use. Parallel to exiting layouts re-design the new addition between designed building and adjacent were designed in order to house the elevator for building visitors and employees accessibility. The building Site plan elevations colour scheme were de- Site plan signed according to city frequently used colours, thus providing a fresh and different outlook for this previously obsolete building, meanwhile continuing and supplementing the Liepaja city historical centre renovated buildings ensemble.
Facade ininaxis Elevation axis 1-4 1-4
Photo ofof the building after after reconstruction Photo the building reconstruction Photo of the building after reconstruction
Color solution for the facades
Photo of the building before reconstruction Photo ofofthe building before reconstruction Photo the building before reconstruction Photo of the building after reconstruction
Ground floor floor plan Ground plan Photo of the building before reconstruction
Facade in axis 1-4 Section 1-11-1 Section My contribution to this project was to prepare the Sketch design and Construction documents (plans, sections and new stairwell- accessibility as well as main entry (doors) solution), as well as the elevation color solution and historical details e.g. painted ceiling beams and other considered artworks preservation and re-use in reconstructed building interior explication in plans and documentation for the historical preservation institution. 8 Sintija Jonikane I Portfolio
Color solution for the Color solution for facades the facades
SiteSite planplan Main entrance drawing
First floor plan Ground floor plan
Color solution for the facades Color scheme for the building Sintija Jonikane I Portfolio
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R GOŅU LA SRE25 Ē KSAS RE KON TI R GOŅU ITI ELAS 25 ĒIE K AS KON T RUKC IJ AS T RUKC Ē kIJ a Apēc rek oĒns k atrpē u kc c ire j aks o n s t r uk c i j a s
Historical layers
Ground floor plan
2. stāva p lāns vēmst b uū r isk n. peri 2. stāva p lāns ar vēstur iskar aj ie v n a. jie p em r iobdūievm 1. stāva p lāns vēstur isk ajpiem b ūvn. 1. stāva p lāns ar vēstur iskar aj iem b ūvn. er iod iem p er iod iem
T IR G O Ņ U I ELAS TI R GOŅU 25 ĒK AS I ELAS REKONS 25 Ē KTA RUKC S REIJ KON A S T RUKC IJ A
1 .s t āva p l ā n 1 s .s t āva p l ā n s
2. stāva p lāns2.arstāva vēstur p lāns isk ajar iem vēstur b ūvn. iskpaj erieiomd ie b ūmv n . p e r io d ie m 1. stāva p lāns1.arstāva vēstur p lāns isk ajar iem vēstur b ūvn. iskpaj eriem iod iem b ūvn. p er iod iem
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1. stāva p lāns ar vē st u r isk a jie m b ū v n . p e r i1
Historical layers
2. stāva plāns a r vē s tur i s k a ji e m būvn . pe r i odi e m
Groun
1. stāva p lāns vēmst b uū r isk n. peri 1. stāva p lāns ar vēstur iskar aj ie v n a. jie p em r iobdūievm
2. stāva plāns i s k a. ji em būvn 2. stāva plāns ar vēstur iskaarjivē e ms tur būvn pe r i odi e m. pe r i odi e m 1.stāva plā ns1 This building reconstruction was 1. stāva p lāns1.arstāva vēstur p lāns isk ajar iem vēstur b ūvn. iskpaj erieiomd ie b ūmv n . p e r io d ie m Elevation in axis A-E done2.forstāva a client in 2. order to adapt plāns arstāva vēstur plāns isk ajiem ar vēstur būvn. iskpaejir ei odi m būvn e m . pe r i odi e m Elevation in axis 1-5 Ēk a p i r m s re k o n s t r uk c i j a s Ēk a p ē c re k onstru kcija s existing building layout for the coms re c iaj apsē c re Ēk c re kcija s Ēk a p i r m s Ēk re kaopnisr tmr uk c ikj aosn s t r ukĒk mercial spaces on ground and first k oan sptēr uk c ikj aonstru s floor as well as by designing the Building reconstruction roof elevation toward the courtyard Ēk a p i r mbefore s reĒk k oan sptirruk m sc ire j aks o n s t rĒk ukac ipj aē sc re k oBuilding Ēk n sat rpuk ē ccafter ire j aks o n s t r uk c i j as 1. s tāva pl ā n s (thus from street view maintaining existing building height and out1. s tāva pl ā n s 1. stāva plāns a r vē s tur i s k a ji e m būvn . pe r i1odi e m pl āns tāva Historical layers Historical layers Ground. s floor plan look) the additional office space 1. stāva plāns i s k a. ji em būvn were designed. 1. stāva plāns ar vēstur iskaarjivē e ms tur būvn pe r i odi e m. pe r i odi e m 1 . s tāva pl āns1. s tāva pl āns The building inside were designed entirely for the plāns new spaces requireĒk a pir ms re 1. stāva 1.arstāva vēstur plāns isk ajiem ar vēstur būvn. iskpaejir ei odi m būvn e m . pe r i odi e m ments. Also the historical plans a pir ms kc re Ēk a pir ms Ēk re konstru showed the layers of building natural growth and adaption for uses Elevation in axis 5’-1 Section 1-1 Section 2-2 Photos of the building Building before through its lifetime. Ēk a pafter i r mand s rebefore Ēk konstru a pir ms kcija re konstru s Ēkkc a Finally, the ground floor and main elevation (particularly previously designed doors with stairs as well as ground floor store windows) towards pedestrian zone were redesigned in order to allow people acĒ k a pir m s rek o ns tr u k c ij as Ē k a p ē c re k o n s t r uk c i j a s cessibility to shops on ground floor as well as the more transparency k aopir mus krek o ns tr u kĒckija as Ē koan sptēr uk c re Ē k a pir m s Ērek ns tr c ij as pēc rek c ikj aosn s t r uk c i j a s and visibility.
Building before reconstruction Ēk a pir ms rek Ē koanspir tr umksc ijrek as o ns trĒukkac ij as rek oBuilding pēc Ēns k atrpēc u k cafter ijrek as on s t r uk c i j a s I designed entire project (SD, CD) under the main architect supervision. Particularly my task was to design the new floor plans layouts according to client program, considering the building structural plans as well as the roof floor elevation development. Ground floor plan 10 Sintija Jonikane I Portfolio
First floor plan
3rd floor plan
Roof plan Sintija Jonikane I Portfolio
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05 Sections
This was a fast track project - interior design for the restaurant “Olive“, at the newly constructed shopping mall. The floor, ceiling and wall fitting, furniture arrangement, upholstered seating and lighting fixtures arrangement as well as bar furniture and main entrance doors were designed by me after the main architect ideas, supervision.
Furniture placement plan
Wall coverings Lighting fixtures placement plan
Photos of completed restaurant Floor coverings plan
Ceiling plan
The Interior Design project was done entirely by me under the main architect concept sketches, corrections, supervision. Bar countertop drawing 12 Sintija Jonikane I Portfolio
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INTERIOR DESIGN FOR APARTMENT Elizabetes street 21a-5, Riga, Latvia
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Photos ofof the apartment (Silver courtesy) Photos apartment (SilverArchitecture Architecture courtesy)
This two-story apartment in newly renovated building in city center of Riga was designed for a family with three children. The old building was reconstructed entirely by the client, therefore the existing two floor apartments were chosen by architect and client to combine and serve for this family needs. The project integrated the new structures such as in-house stairs to connect these two levels, fireplace as well as entirely new layout with advanced and up- to date integrated heating, cooling (radiant ceilings), ventilation, security and the mentioned systems performance and management devices. Lot of apartment furniture was designed as a built-in and stained white in order to merge with other woodworks such as window fittings (sills and sledges), wall opening panels and doors.
1st level
1st level
Sections Sections
My contribution was to elaborate all building sections, interior elevations and plans with designated materials and systems, as well as after the main architect drawings design shop drawings and details. (in some cases I designed furniture or detail options myself). Detail drawings 14 Sintija Jonikane I Portfolio Details
2nd level 2nd level
Detail drawings Detail drawings Sintija Jonikane I Portfolio
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This (second) Studio apartment for the same client and at the same building was designed for parents retreat as well as private practice (studio) purposes. The first level houses main- living –studio room, bedroom and two bathrooms, whereas at the second level there is a sunroom with an entrance to roof terrace where the city center and nearest park can be observed. The unique stairs with integrated, built-in bookshelf, sitting corner and fire place make the small apartment space used efficiently. An existing renovated concrete ceilings and beams were preserved as well as some parts of existing brick walls exhibited, thus making this roof apartment in summers cooler as well as otherwise contemporary and intimate studio apartment atmosphere.
Photo of the Studio apartment (Silver Architecture courtesy)
1st level
Similarly as in previous apartment I designed all Interior design documents for construction, including the build-in furniture, wall, windows or door and fire place design and details. 2nd level 16 Sintija Jonikane I Portfolio
Sections
Fireplace drawing
Built-in bookshelf drawing Window drawings Sintija Jonikane I Portfolio
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VADUZ NUCLEAR - ACTIVE URBAN ARCHITECTURE 1st sem. project at University of -Liechtenstein VADUZ NUCLEAR ACTIVE URBAN ARCHITECTURE
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1st sem. project at University of Liechtenstein
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This was the first semester Master’s degree program Sustainable Urban Design studio project. Each student choose the municipality (city center) in Liechtenstein and found the most demanding building or site, where should be most necessary to do an intervention project. I choose the city center of Vaduz and its vast car parking area which is located in very center, since due to its mono use - for car parking only, the sites capacity could be more utilized by establishing a new and active multifunctional shopping, working and living center. The proposed building with atrium which will connect the currently often used pathway bus stop and school, was designed as an active urban architecture building, which means that the building with its natural ventilation, green walls and alternative energy sources will produce its energy demand or even surplus itself.
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The second semester project at the Sustainable Urban Design studio was Lindau island, located in famous lake Constance in south of Germany, transformation project. The current car parking area were selected for the new development proposal in order to complete the islands development and attract a new citizens and workplaces to this tourists frequently visited and historical architecture rich island. Furthermore, the main challenge was the current train station and railway tracks redesign in order to move the station on islands north thus getting rid of current barrier railway tracks and connect these currently separated island parts. My proposal was to keep the historical railway tracks as much as possible, by integrating them in a linear landscape park as well as proposing several mixed use buildings as a “flow” along them.
Master plan 1:2000
Master plan 1:500
Sketches
Sketches
The common studio modelinfill with my proposal infill Studio model with my proposal
Master plan 1:500
Master plan 1:2000 The model was created by all studio as a team work, where each of us could replace the project site part as model infill.
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The third semester project was Research report “Sustainable development and energy autonomy of Gewerbe (industrial and trade) zones in Liechtenstein“. The first part of the project was to document and classify the status quo of an existing industrial or in zoning plans designated Gewerbe zones and its typologies. After that, the closer look to selected two typical industrial areas were taken and observations as well as suggestions for future development and improvements for alternative energy resources (as geothermal and PV) use suggested. Additional emphasis by interviewing the companies on sites where put on industrial symbiosis or regional eco-cycling model development, where the ones company waste could be used as the others company source or energy, as well as an existing resources (e.g. steam form the waste incineration plant were transferred to the food production company) shearing were uncovered. The project was done under my professor Peter Droege (who had done already several research projects in region such as “Renewable Liechtenstein“) guidance and supervision. 22 Sintija Jonikane I Portfolio
Balzers industrial zone analysis
Above, Right I Research project: “Sustainable development and energy Above, Right I Research project: “Sustainable development and autonomy of Gewerbe (industrial and trade zones) in energy Liechtenstein“ autonomy of Gewerbe (industrial and trade zones) in Liechtenstein“ (3rd semester at University of Liechtenstein). (3rd semester at University of Liechtenstein). Regional Eco-cycling model
Location and typology of Gewerbe zones Sintija Jonikane I Portfolio 6 6
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Eco-City Leutschenbach, Zurich Master plan 1:1000
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5
The fourth and last semester was my Thesis work. I choose the studio provided site - currently also by the city planning office for redevelopment designated previously industrial and brownfield area in Zurich city. The aim was to develop a new and with latest sustainable practices orientated city quarter development. Therefore after careful site investigation the decision was made as much as possible to recycle and re-use existing building on site (e.g. by adaptive reuse principles utilize existing bus garage for the neighborhood bus museum as well as green industries and services center). Similarly, the wooden industrial buildings were preserved for the place identity and cultural Eco-City Leutschenbach, Zurich heritage purposes. The other – new buildings and public spaces were created by applying and integrating the UK Bio region concept ten sustainability principles.
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10
10 6 6
7
5
10
5
9 5
Eco-City Leutschenbach, Zurich
Eco-City Leutschenbach, Zurich
Aerial view (hand drawing)
8 Master plan 1:1000
Eco-City Leutschenbach, Zurich
Elevation towards Hagenhoz street 1:500
3 Street network 1:5000
Ground floor functions 1:5000
Buildings kept 1:5000
5 4
Eco-City Leutschenbach, Zurich
13 2 LEGEND
6
existing buildings (with little retrofitting) adaptive reuse buildings new planned buildings
Floor functions/ area and people density 100
200
Living
400
1500
3500
3243 100
25000
7846
200
100
Waste vacuum collection network 1:5000
Working
15000 LEGEND
200
5 1 Leutschenbach Eco-tower business district
400
2 Apple garden and residential houses
Elevation towards Leutschenbach street 11:500
3 house“ Bus Garage (creative industries) 4 “Nature
5 Co-housing with public use ground floor 1 wetland 6 Restored underground streem and 4 2
Sector A
Sector B
Sector C
TOTAL (m2/people)
retail shops commercial offices residential industrial media place for worship educational agriculture
12500 m2 29000 m2 31300 m2 11600 m2
15900 m2 10500 m2 18000 m2 71600 m2 2500 m2 -
1300 m2 48500 m2 52000 m2 5540 m2 150 m2 -
29700 m2 / 1980 88000 m2 / 5866 97300 m2 / 3243 17140 m2 71600 m2 150 m2 2500 m2 8000 m2
P 100
200
1
LEGEND
200
P
400
100 200 Reference building - Mont-Cenis academy with photovoltaic cells covered roof in Herne, Germany
400
9 Multiple religion worship building and square 10 Mixed use development
13 Waste pyrolisis and incineration plant
Perspective looking towards Bus Garage “Nature House“
Master plan 1:1000
Buildings kept 1:5000
March 21 (Equinox)
8 Green businesses office park
12 Military education site
Waste recycling / pyrolisis and incineration plant 100
5
7 Swiss TV and Media park
11 Research & Green industries center (recycling arch)
Waste vacuum collection network (first stage) Collection points
400
Building hights (storeys) 1:5000 Shadow Street network 1:5000diagrams of masterplan 1:5000
Ground floor functions 1:5000
8000 m2
5
3 Artists workshops with Greenhouse
retail shops
Legend
June 21 (Summer solstice)
Master plan 1:1000
Institute for Architecture und Planning Summer Semester 2013 Master of Science in Architecture Concentration Sustainable Urban Design The main view - Entrance to the Leuttschenbach Eco-city
Section C-C (Eco- Tower building physics) 1:500
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40
80
Lecturer: Prof. Peter Droege DI MAAS MCPIA
Student: Sintija Jonikane
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Section A-A 1:500 Building hights - volumetry
LEGEND existing buildings (with little retrofitting) adaptive reuse buildings new planned buildings
LEGEND Up to 15 m (1-4 storey) 15-30 m (5 - 8 storey) 40-90 m (9 - 28 storey) 100
200
100
400
200
400
Diagrams
September 21 (Equinox) Public transport network 1:5000
Ground floor functions 1:5000
100
200
400
100
200
A A
Perspective looking towards Artist workshops 400
Before
After
Waste vacuum collection network 1:5000 Water sensitive design (rainwater retention bioswales)
December 21 (Winter solstice)
Solar panels on roof and rails Natural ventilation with atrium
Section B-B 1:500
Chilled water evaporation beems for cooling Rainwater harvesting in inside water pools for irigation and grey water use)
Puls 5 mixed use office development in previous industrial building
The site master plan, perspective and aerial drawing were made by myself, however, this big scale and scope projects would be necessary to develop in teams, as it is in real practice. 100
200
Geothermal heating Rainwater collection, storage and use for the gey water
Industrial precinct
.stormwatercenter
B
Waste vacuum collection network (first stage) Collection points
Shadow diagrams of masterplan 1:5000 March 21 (Equinox)
100
June 21 (Summer solstice)
cave - carved out of mass: people feel save, light and shadow
200
400
P
100
Local food, vegetables
Sidewalk bioswale for rainwater retention
Cycling in Oslo, Norway
200
Model
References of the Adaptive Reuse industrial buildings
Rot Fabrik in Zurich (South), Switzerland
u
100
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all generaƟons united into future - geƫng the strength from open space
Waste recycling / pyrolisis and incineration plant Source: www.waterbydesign.com.a
C
200
400
400
The common/ sheared kitchen for social geathering, space and equipment reduce
Section of Eco-tower
Sulzerareal in Winterthur, Switzerland
Institute for Architecture und Planning Summer Semester 2013 Master of Science in Architecture Concentration Sustainable Urban Design
Lecturer: Prof. Peter Droege DI MAAS MCPIA Student: Sintija Jonikane
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Right I Thesis project: “Eco-city Leutschenbach, Zurich“ (4th semester at the University of Liechtenstein). C
B
LEGEND many hands - common cooking meld people together
400
Source: www.stadt-zurich.ch
Transparent glas roof with PV cells
Co-gardens in Amsterdam, Netherlands
P
7
5
Legend
400
Public transport network 1:5000
Ground floor functions 1:5000
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Perspective looking towards Bus Garage “Nature House“
Existing, planned population increase (in Leutschenbach) and achieved in Leutschenbach-Mitte
Institute for Architecture und Planning Summer Semester 2013 Master of Science in Architecture Concentration Sustainable Urban Design
Lecturer: Prof. Peter Droege DI MAAS MCPIA Student: Sintija Jonikane
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Perspective to main entry
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Aerial viwe to the site (hand drawing)
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This was the famous American architect R. Mayer Douglas House training project in Revit Architecture program environment. The tutorial or step-by step instructions how to model in this at first sight complex design software leaded to building 3D mode containing it’s integrated structures and architectural elements (as walls, base), families (windows, doors, furniture) and placed in components (sun room, rails, fireplace).
Right I Photo of the Douglas House at Lake Michigan, 3D model designed in Revit Architecture 2012. 26 Sintija Jonikane I Portfolio
3 D model created in Revit Architecture
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13 PROGRAM BLOCKS 1 - COMMON AREAS PATIENT EDUC
VESTIBUL
LOBBY/ MAIN WAITING
LOB02 60 SF
LOB01
RECEPTION RECP1 180 SF
CLSC1 30 SF 01
300 SF
2 - PATIENT ADMINISTRATION
4 - PRIMARY CARE/ FAMILY PRACTICE
RECORD STORAGE
LOCKERS FEMALE
LOCKERS MALE
BENEFITS COUNSELOR OFFICE
PATIENT EDUC CLASSROOM
ADULT/PED SCREENING
MRS02
LR002 120 SF
LR002
OFA01 120 SF
CLR01
EXRG4
240 SF
80 SF
120 SF 01
120 SF
5 - PHARMACY
EXAM ROOM
EXAM ROOM
EXAM ROOM
EXAM ROOM
EXAM ROOM
EXAM ROOM
EXAM ROOM
EXRG1 120 SF
EXRG1 120 SF
EXRG1 120 SF
EXRG1 120 SF
EXRG1 120 SF
EXRG1 120 SF
EXRG1 120 SF
SUB-WAITING WRC01 150 SF
DISPENSING STORAGE
MANUF & PREPACK
PHOD1
PHMP1
320 SF
80 SF
04
PUBLIC TEL 01
01
BX001
01
01
02
05 04
04
04
04
04
04
04
04
01
05
20 SF
05
01
Shortly, after my first independent exploration of Revit Architecture 2014, I had a chance to apply my freshly gained skills to a real office project task - Program block design for the new hospital building in Korea.
TOILET FEMALE
TOILET MALE
TLTU1 50 SF
TLTU1 50 SF
01
STAFF LOUNGE SL001 200 SF
F PUBLIC TOILET
M PUBLIC TOILET
JANITOR CLOSET
JANITOR CLOSET
JANITOR CLOSET
TLTF2 200 SF
TLTM2 200 SF
JANC1 40 SF 01
JANC1 40 SF 01
40 SF
01
01
TREATMENT ROOM
120 SF
01
GROUP PRACTICE MANAGER
TRGM1 175 SF
3 - ALLERGY/ IMMUNIZATIONS
01
SHARED RN OFFICE
TEAM ROOM
NCOIC OFFICE
WRCH1
OFA02 180 SF
OFD01 120 SF
180 SF
BH PROVIDER OFFICE
OFA02 100 SF
PUBL HEALTH NURSE
OFA01 120 SF
04
04
04
PHARMACIST OFFICE
04
04
PHARM D CONSULT ROOM
OFA01
OFA01 120 SF
120 SF
OFA01 120 SF 04
04
05
05
04
ALLERGY INJECTION OPAI1 140 SF
COMMUNICATIONS ROOM
COMMUNICATIONS ROOM
COMC1 130 SF
COMC1 130 SF
TOILET UNISEX
TOILET UNISEX
TOILET UNISEX
TOILET UNISEX
TLTU1 50 SF
TLTU1 50 SF
TLTU1 50 SF
TLTU1
01
01
01
CONSULT ROOM
03
7 - RADIOLOGY
SUB-WAITING WRC01 120 SF
BLOOD DRAW
LABORATORY LBSC1 240 SF
LBVP1
DRESS. ROOM
XDR01
DR001
320 SF
50 SF
PATIENT SUBWAITING
SUBWAITING
VISION SCREENING
WRC01
EYVS1
WRC01 60 SF 07
100 SF
120 SF 08
06
CLINIC COMMANDER OFD01 120 SF
CRASH CART
NCOIC OFFICE
EQUIPMENT/ LITTER STOR.
20 SF
04 RCA01
OFA02 120 SF
SRE01 100 SF 04
04
04
04
9 - URGENT CARE CLINIC
PATIENT RECORD STORAGE
CLINIC WAITING
MRS01 60 SF
120 SF
WRC01
10 - OPHTHALMOLOGY/ OPTOMETRY CLINIC
RECEPTION
TREATMENT
RECP1 140 SF
TRGM1 175 SF
TREATMENT / OBSERVATION
TREATMENT / OBSERVATION
TCGS1
TCGS1
120 SF
120 SF
FITTINGDISPENSING
FRAME STORAGE
EYFD1
SRS01
140 SF
80 SF
VISUAL FIELD
VISUAL SCREENING
EYVF1
CONTACT LENS FITTING
EYVS1
120 SF
08
120 SF
EYCL1 120 SF
10
08
06
CODER OFFICE OFA02 100 SF 04
04
8 - OCCUPATIONAL HEALTH
GENERAL RADIOGRAPHIC
07 06
OFA02 120 SF
04
6 - PATHOLOGY RECP1 120 SF
CASE MANAGEHEALTH PROMOTION
NSTA4 120 SF
01
01
RECEPTION
NURSE STATION
OFDC2 120 SF
50 SF
01
140 SF
By using Revit software tools Walls and room tags I quickly designed the necessary rooms for this hospital from the client given program listed in Excel. The final product program block pieces were colored by groups and on glued cupboard cut by laser and arranged by architect David Fisk in one level hospital layout.
EXAM ROOM EXRG1
JANC1
01
09
09 09
06
10
09
10
10
10
09
07
AUDIO BOOTH
PRIVATE OFFICE
PEHS2 375 SF
SPECI. TOILET
LAB STORAGE
TLTU1 50 SF
SRS01 100 SF
MICROBIOLOGY
COPY ROOM
LMM02
RPR01 60 SF
140 SF
06
NCOIC OFFICE
TRASH LINEN
OFA02 100 SF
06
UTLC1 60 SF 07
06
07
OFA01 120 SF
CLEAN SUPPLY/ EQUIPM OFA08 60 SF
SHARED OFFICE OFA02 120 SF
08
TREATMENT
CAST ROOM
TRGM1 175 SF
OPCR2 360 SF
FUNDUS CAMERA
NURSE STATION
AMBULANCE DISPATCH
NSTA4 120 SF
COM02 180 SF
08
07
EYE LANE
EYE LANE
EYEL4 140 SF
EYFC1 120 SF
OPHTHALMOLOGIST/ OPTOM
EYEL4 140 SF
OFD01 120 SF
09 10
06
09
09
EXAM ROOM
EXRG1 120 SF
10
09
08
EXAM ROOM
10 10
CLEAN UTILITY
EXRG1 120 SF
SOILED UTILITY
UCCL1 120 SF
USCL1 90 SF 09
08
09
LITTERWHLCHR STOR
CRASH CART 20 SF
EQUIPMENT STORAGE
SRLW1 60 SF
RCA01
100 SF
09
NCOIC OFFICE
SRE01
09
CLEAN UTILITY
OFA02
UCCL1
100 SF
SOILED UTILITY
EQUIPMENT STORAGE
USCL1
80 SF 10
09
SRE01
80 SF 10
100 SF 10
10
08
11 - PHYSICAL THERAPY CLINIC WAITING
RECEPTION
OFFICE/ EXAM
RECP1 120 SF
WRC01 140 SF
WORKSTATION
EXRG1 120 SF
11
11
EXERCISE AREA
MAT/PLATFORM AREA
PTES1 200 SF
PTEA1 220 SF
PTCW1 40 SF
11
11 11 11
TREATMENT CUBICLE
TREATMENT CUBICLE
TREATMENT CUBICLE
VISION THERAPY
PTTC1
PTTC1
PTTC1
PEVS1
140 SF
140 SF
140 SF
120 SF
PATIENT/ STAFF TOILET
12 - BEHAVIORAL HEALTH CLINIC WAITING
RECEPTION
TLTU1 50 SF 11
100 SF 12
13 - LOGISTICS PSYCHOLOGIST OFFICE
GROUP THERAPY
ADMIN CUBICLE
RECEIVING/ PROCESSING
OFDC1
OFDC1
OPMH1
MMGS1
140 SF
240 SF
OFA03 40 SF 13
MMRP1
140 SF
160 SF
240 SF
PSYCHIATRIST OFFICE
RECP1 100 SF
WRC01
MEDICAL MATERIAL GENERAL STORAGE
11
11
STERILE SUPPLY STORAGE SRE01 120 SF
12
13
11
13
11
12
12 13
12
TOILET/ SHOWER/ DRESSING
ICE MACH.
20 SF
TLTS1
ICE01
11
SRE01 100 SF
LCCL1
LINEN STOR.
EQUIPMENT/ SUPPLY STORAGE
20 SF
11
60 SF 11
11
WALL STORAGEEXERCISE SRE01 60 SF
PSYCH TECH OFFICE OFDC1 140 SF
FAP OFFICE
BH SOCIAL WORK OFFICE
OFDC1 140 SF
CENTR CLEAN LINEN STORAGE
OFDC1
LCCL1
140 SF
11
12
CENTRAL SOILED LINEN
STORAGE/ EQUIPMENT/ SHELVING
LCSL2
120 SF
HAZARDOUS MATERIALS STORAGE
SRSE1
13
Concept plan with program blocks ‘‘puzzle’’
SRHM1 80 SF
120 SF
120 SF 13
12
13
13
12
Program blocks (required rooms/spaces)
The Program blocks drawn by me and the hospital Concept plan created from these pieces by main architect David Fisk.
28 Sintija Jonikane I Portfolio
Sintija Jonikane I Portfolio
29
14
After some Ecotect Architecture software introduction and training followed little bit more adwanced daylight analysis software Diva for Rhino. I assisted for the Project performance team to analize and test different glazing materials (provided by manufacturer) for the building large atrium glazing. The main idea was to understand the levels of daylight in this climate in order to act accordingly, e.g. provide the shading systems to eliminate not very pleasant glare or too much sun especially on third level where some work stations will be located.
SketchUp model by the team
Atrium Point-in-Time illuminiscence diagrams
Atrium Daylight factor diagrams
The building atrium model (fragment were imported in Diva for Rhino software and analyzed for Daylight factor (with transparent glass material) as well as for Point-in Time Illumiescence in different season and weather conditions. 30 Sintija Jonikane I Portfolio
Sintija Jonikane I Portfolio
31
Ground floor shading analysis with Inside shades (F,ETFE, PTFE)_Tree_leaf
Ground floor shading analysis with Inside shades (F,ETFE, PTFE)_Tree_leaf
Option 1 - Fabric or ETFE Shading
Annual Daylight Factor
Option 2 - Fabric or ETFE Shading
Annual Daylight Factor
Interior view - Daylight visualization Jun21 12pm (Clear sky with Sun)
Point-in-Time Illuminance Jun21 12pm (Clear sky with Sun)
Interior view - Daylight visualization Jun21 12pm (Clear sky with Sun)
Point-in-Time Illuminance Jun21 12pm (Clear sky with Sun)
Option 3 - Fabric or ETFE Shading
Annual Daylight Factor
Option 4 - Fabric or ETFE Shading
Annual Daylight Factor
Interior view - Daylight visualization Jun21 12pm (Clear sky with Sun)
Point-in-Time Illuminance Jun21 12pm (Clear sky with Sun)
Ground floor shading analysis with Inside shades (F,ETFE, PTFE)_Tree_leaf
The shading research and generic structure from non-transparent fabric four options were designed by me in Rhino and afterwards analyzed with Diva for Rhino plug in at the same software. 32 Sintija Jonikane I Portfolio
Interior view - Daylight visualization Point-in-Time Illuminance Jun21 12pmPoint-in-Time (Clear sky with Sun) illuminiscence (glare) Jun21 12pm (Clearapplied sky with Sun)shading structures Atrium with
Ground floor shading analysis with Inside shades (F,ETFE, PTFE)_Tree_leaf
Sintija Jonikane I Portfolio
33
Hours: 143
15
LEED HC v 2009 Checklist
Around one month from my internship I spent on training, researching as well as applying and documenting the requirement of the LEED v 2009 Credits, mainly Sustainable Sites. The current, second project for LEED documentation was hospital, therefore the LEED for Healthcare guidelines and scorecard were used.
VA Loma Linda 2/3/2014
61 19 11
19
Y
?Y ?N
N
14
1
2
1
c Prereq 1
Y Y
Prereq 2 1
1 1 3 1 1
Certified 40-49, Silver 50-59, Gold 60-79, Platinum 80+
Total Project Points Sustainable Sites
Y
?Y ?N
N
7
5
4
Construction Activity Pollution Prevention
Y
Environmental Site Assessment
Y
d Credit 1
Site Selection (1 point)
d Credit 2
Development Density & Community Connectivity (1 point)
d Credit 3
Brownfield Redevelopment (1 point)
2
d Credit 4.1
Alternative Transportation: Public Transportation Access (3 points)
2
d Credit 4.2
Alternative Transportation: Bicycle Storage & Changing Rooms (1 point)
1
d Credit 4.3
Alternative Transportation: Low-Emitting and Fuel-Efficient Vehicles (1 point)
2
d Credit 4.4
0
Materials & Resources
d Prereq 1 Prereq 2
d Credit 1.1
Building Reuse: Maintain Existing Walls, Floors, and Roof (1-3 points)
1
d Credit 1.2
Building Reuse: Maintain Existing Interior Nonstructural Elements (1 point)
d Credit 2
Construction Waste Management (1-2 points)
d Credit 3
Sustainability Sourced Materials and Products (1-4 points)
c Credit 4.1
PBT Source Reduction: Mercury in Lamps (1 point)
c Credit 4.2
PBT Source Reduction: Lead, Cadmium, and Copper (2 points)
Alternative Transportation: Parking Capacity (1 point)
2
c Credit 5
c Credit 5.1
Site Development: Protect or Restore Habitat (1 point)
1
c Credit 6
d Credit 5.2
Site Development: Maximize Open Space (1 point)
1
d Credit 6.1
Stormwater Design: Quantity Control (1 point)
7
1
d Credit 6.2
Stormwater Design: Quality Control (1 point)
Y
d Prereq 1
1
c Credit 7.1
Heat Island Effect: Non-Roof (1 point)
Y
Prereq 2
1
d Credit 7.2
Heat Island Effect: Roof (1 point)
n/a
1
d Credit 8
Light Pollution Reduction (1 point)
1
1
1
d Credit 9.1
Connection to the Natural World: Places of Respite (1 point)
1
d Credit 9.2
Connection to the Natural World: Direct Exterior Access for Patients (1 point)
4
1
2
PBT Source Reduction: Mercury
3
2
1
1
Storage and Collection of Recyclables
5
1
1 1
Furniture and Medical Furnishings (1-2 points) Resource Use: Design for Flexibility (1 point)
Indoor Environmental Quality Minimum IAQ Performance Environmental Tobacco Smoke (ETS) Control
d Prereq 3
Hazardous Material Removal or Encapsulation (Renovations Only)
d Credit 1
Outdoor Air Delivery Monitoring (1 point)
d Credit 2
Acoustic Environment (1-2 points)
c Credit 3.1
Construction IAQ Management Plan: During Construction (1 point)
c Credit 3.2
Construction IAQ Management Plan: Before Occupancy (1 point)
c Credit 4
Low-Emitting Materials (1-4 points)
Y
d Prereq 1
Water Use Reduction: 20% Reduction
1
c Credit 5
Indoor Chemical and Pollutant Source Control (1 point)
Y
d Prereq 2
Minimize Potable Water Use for Medical Equipment Cooling
1
c Credit 6.1
Controllability of Systems: Lighting (1 point)
7
0
2
0
Water Efficiency
d Credit 1
Water Efficient Landscaping: No Potable Water Use or No Irrigation (1 point)
d Credit 2
Water Use Reduction: Measurement and Verification (1-2 Points)
d Credit 3
Water Use Reduction (1-3 points)
1
d Credit 4.1
Water Use Reduction: Building Equipment (1 point)
1
d Credit 4.2
Water Use Reduction: Cooling Towers (1 point)
1
d Credit 4.3
Water Use Reduction: Food Waste Systems (1 point)
1 2 2
1
4
c Credit 6.2
Controllability of Systems: Thermal Comfort (1 point)
d Credit 7
Thermal Comfort: Design and Verification (1 point)
2
d Credit 8.1
Daylight and Views: Daylight (2 points)
3
d Credit 8.2
1 1
4
2
0
0
d Prereq 1
Y 19
6
6
4
4
8
Energy & Atmosphere
c Prereq 1
Y
d Prereq 2
Y Y 16
8
Fundamental Commissioning of the Building Energy Systems
1
d Credit 2
On-Site Renewable Energy (1-8 points) Enhanced Commissioning (1-2 points) Enhanced Refrigerant Management (1 point)
d Credit 5
Measurement & Verification (2 points)
1
d Credit 6
Green Power (1 point)
1
d Credit 7
Community Contaminant Prevention: Airborne Releases (1 point)
1
1
1 1
Optimize Energy Performance (1-24 points)
d Credit 3
1
1
1
Fundamental Refrigerant Management
d Credit 1
d Credit 4
1
1
Minimum Energy Performance
d Prereq 3
1 3
1
1 1
Credit targeted for regional priority, eligible to achieve an extra point
1 1
0
Integrated Project Planning & Design
d Credit 1.1
Innovation in Design: Education & Tours
d Credit 1.2
Innovation in Design: Green Cleaning
d Credit 1.3
Innovation in Design: Procurement process: equipment
d Credit 1.4
Innovation in Design: Procurement process: consumables
d Credit 2
LEED Accredited Professional (1 point)
d Credit 3
Integrated Project Planning & Design (1 point)
Regional Priority
d EA2
1
1 CREDIT KEY
0
Daylight and Views: Views (1-3 points)
Innovation in Design (1-4 pts) / Exemplary Performance (1-3 pts) / Pilot Credit (1 pt)
(max 4)
On-Site Renewable Energy 1%
EQ8.2
Daylight and Views: Views (min 1 pt threshold)
SS4.1
Alternative Transportation: Public Transportation Access
SS7.1
Heat Island Effect: Non-Roof
WEc2
Water Use Reduction: Measurement and Verification (at 1pt level)
WEc3
Water Use Reduction 40%
Credit explicitly targeted as mandatory by SFO Aspects of this credit targeted as mandatory by SFO
LEED v 2009 Scorecard for the project
Around one month from my internship I spent on training, researching as well as applying and documenting the requirement of the LEED v 2009 Credits, mainly Sustainable Sites. The current, second project for LEED documentation was hospital, therefore the LEED for Healthcare guidelines and scorecard were used. The LEED Sustainable Sites credits documentation 34 Sintija Jonikane I Portfolio
Sintija Jonikane I Portfolio
35 17
16
This building Student Apartments in Eugene, OR designed by the architect Gary Blackwell, ZGF and currently is under construction. Originally it was designed in 2D drafting software Auto Cad, therefore the aim of this one week self-initiated Revit software training was to test and evaluate how fast it is possible to design (build) this building in this software and what are the benefits for using Revit comparing the traditional or previously in industry used software. The result was quite decent rendering as well as plans with automatically created elevations and sections, as well as, doors and windows schedules.
2nd level
Building rendering with Revit Architecture (processed in Photoshop)
The building was modeled or digitally “reconstructed“ after the project original plans by myself as a Revit Architecture training project.
36 Sintija Jonikane I Portfolio
Sintija Jonikane I Portfolio
37
17
This is the University of California strategically significant area intervention where the new light rail line is planned. The images made as photomontages using the Revit model quick view (line work) renderings and afterwards processed in Photoshop, were prepared for the Schematic Design review and presentation to the client.
View to the entry
View to the entry
Aerial view
The Revit model was made by the team. I did some additional drawing in model for the intersection (circle pattern) and then selected the views and rendered them as well as processed these renderings in Photoshop (including the circle pattern and materials after the team architect sketches). 38 Sintija Jonikane I Portfolio
Sintija Jonikane I Portfolio
39
18
In the middle of the internship I was assigned for an Interior design project to assist with the color boards preparation for a client presentation and exhibition to the current employees to have a sense for the future building public and new office spaces on a campus. My task was to finish - assemble and refine by colleague already started boards layouts in InDesign and afterwards to print and arrange the materials (which was chosen for these interiors). Since the lot of materials were only one sample, I had a task to call or email and order some more materials for these boards. It was a hand on experience as well as for the project interior design used or other material research opportunity at the office in-house material library.
Color boards with rendering panel
Five color boards with adjacent rendering panels exhibited for client meeting
Me with the one of five color boards completed The Program blocks drawn by me and the hospital Concept plan created from these pieces by main architect David Fisk.
40 Sintija Jonikane I Portfolio
Sintija Jonikane I Portfolio
41
Hours: 36
19
DOT STANDARD 3’X3’ SCORED CONCRETE, BROOM FINISH
SWAMP OAK STREET TREE
BIKE SEPERATOR
EXISTING STREET TREE
Photo of the exiting street/intersection
SAND FINISH CONCRETE ON 3” GRID
CYCLE TRACK
REGULAR PLANTER
POCKET PARK
ADA CURB RAMP
NE
W
HA
HIGH VISIBILITY CROSSWALK
M
V STREET NW
This project was already in PSE phase, equivalent of 100% CD, however still (untypically) one more public presentation had been necessary to prepare and hold. Therefore, I was asked to finish by colleague and project architect Debbie Chow initiated site plan drawing (dwg) and process it in a Photoshop.
ON STREET PARKING
NISSA SLYVATICA STREET TREE
W STREET NW
BICYCLE PARKING ISLAND
PS
HI
E
AV E
.,
SECTION A-A
NW
A
15TH STREET
FL AV OR E. ID ,N A W
SITE PLAN SCALE 1” = 20’-0”
SITE PLAN SCALE 1” = 10’-0” 0
20
60
0’-0”
2014
ALE 1 ”=5
Streetscape project Cad drawing processed in Photoshop for the client presentation SCALE 1” = 20’-0” ary 5,
The colored plan on right was my contribution to this project. The plants according to landscape architect list and plan were placed in final plan as well as surrounding buildings adjusted from google earth views. 42 Sintija Jonikane I Portfolio
SC
Febru
Cad drawing (original)
A
March 7, 2014
25
Sintija Jonikane I Portfolio
43
20
An existing building at the center of Portland was redesigned for a client in order to host the medical services- Reproductive Fertility Center. As well as the building seismic upgrades were required to integrate. The current building height is not altered, however the future vertical expansion, one additional floor are considered and integrated in current project design, therefore the structural as well as accessibility elements (e.g. elevator) were designed accordingly. My task was to prepare the proposed building design Photomontages as well as some slight adjustments and annotations for proposed building elevations, plans for the booklet submission to the city Design Commission.
SW 15th Ave street view before
SW 15th Ave street view after
808 BUILDING // DESIGN REVIEW APPLICATION // XX
Elevations with materials specification
The building Schematic design model was done by colleague, however I did some small adjustments for elevations as well as labeled used materials and systems for the Exhibits to Design Review submission. As well as, I did the Photomontages in Photoshop from SketchUp 44 Sintija Jonikane I Portfolio
Perspective views of the exiting and proposed building Sintija Jonikane I Portfolio
45
M 3-01
M 3-05
skat. labiekārtojuma plānu
cinkota tērauda skārda leņķis folijas, aizsargplātņu un ģeotekstila aizsardzībai no saules UV stariem
oļi 50mm
substrāts
70-100 mm
ģeotekstils
1 kārta
drenāža
40 mm
bitumena membrāna specifikāciju skat. būvelementu katalogā
ar min. masu 90-140kg/m2 sausā stāvoklī (mitras augsnes masa par 50-60% vairāk nekā sausai)
1 kārta
izolācija ķīlis
500
blīvi, gareniski izvietotas aizsargplātnes, kuras veidotas no materiāla, kas aizsargā pret augu saknēm
bitumena membrāna
2.N E
2.N D
2.N F
2.N G
2.N H
2.N J
2.N I
Plātnes mala
22.130
22.130
22.130
22.130
22.130
115 5 210
siltumizolācija no max. 240 mm līdz min. 120 mm
Plātnes augša
bitumena membrāna, 2 kārtas
margas balsta drenāžas paklājs 2000*1000*43(h)mm aizsargplātnes 5mm
bitumena membrāna, 1 kārta
folija 1 kārta
600
600
alumīnija margas stiprinājuma pēda h=77mm drenāžas slānis 40mm
704
ģeotekstils, 1 kārta
+21.00 max.
izolācija ķīlis
550 120 40 oļi 100mm 530
595
1% kritums
13
+20.65m
siltumizolācija no max. 240 mm līdz min. 120 mm
2% kritums
+20.48m
Plātnes augša +20.48m
1 kārta
ar lodlampu sakausēta elastīga bitumena membrāna ar starpkārtu no stiklšķiedras auduma, kā apakšējais slānis ar sakausētām šuvēm, virsma ar talku, punktveidā līmēta vai sakausēta uz plaknes, ieteicamā kvalitāte: BauderFlex G4E
siltumizolācija
ar kritumu
siltumizolācija veidota no poliuretāna stingrām putām PURin saskaņā ar LVS EN 13165:2013-03, CE marķējums , ar sekojošiem rādītājiem: - aprēķina siltumvadītspēja : λ ≤ 0.030 W/mK - spiedes stiprība pie 10% saspiežamības: CS(10/Y) 100. Instalācija: blīvi, ievērtējot ražotāja rekomendācijas.
bitumena membrāna
1 kārta
betona pārseguma plātne
280mm
Plātnes apakša +20.20m
Plātnes apakša
+20.20m
25
Logu dalījums
Our office has been assigned to design roof garden landscape de- Sketch Up model for the roof garden landscape alternatives sign for two high-rise building rooftops at the new mixed-use development New Hansa City in Riga, Latvia. My task in collaboration with inhouse landscape architects, project civil engineers and main project architects, as well as specific (green roof ) system materials supM 2-02 pliers is to assemble and design the details (roof sections) for the most important landscape and building/roof details and solutions.
Kāpņutelpas grīda +20.923m
+20.62m
2% kritums
1 kārta
ar lodlampu sakausēta bitumena membrāna ar starpkārtu no neausta poliestera auduma kā virsējais slānis, ar sakausētām šuvēm, virsma vienlaidus līmēta vai sakausēta uz plaknes, ieteicamā kvalitāte: Baukubit K5K
tekne 115 *75(h)mm
izolācija ķīlis betonējums zem teknes (pie durvīm)
vertikāls griezums
margas stiprinājums
šķembas 30-70mm
43
Green roof details
bitumena membrāna
betona plātnes 400*600*50mm
alumīnija apmale (h=60mm)
L veida plakandzelzs balsts 45*45mm
+20.72m
40
80
polietilēna folija ar 20 cm pamīšus izvietotiem slāņiem savienojuma vietā, brīvi ieklāta kā šķirkārta
240
folija
+21.00 max.
50 120
5 mm
vertikāls griezums
L veida plakandzelzs balsts 45*45mm
leņķdzelzis
50
aizsargplātnes
934
augu substrāts ar min. masu 90-140kg/m2 sausā stāvoklī (mitras augsnes masa par 50-60% vairāk nekā sausai)
skārda nosegelements
78
21
kāpņutelpas durvis
anodēts alumīnija parapeta nosegums, ar skaņu reducējošu pārklājumu nerūsējoša tērauda L veida profils, h=80mm
Ekstensīvais zaļais jumts
ekstensīvā jumta augi
M 2-03
100 140
M 2-01
Birojs
ar lodlampu sakausēta elastiska bitumena membrāna ar starpkārtu no neausta stiklšķiedras auduma un 0.1mm alumīnija folijas, kā tvaika barjera, ar sakausētām šuvēm, sD vērtība > 1500 m, līmēta punktveidā vai sakausēta uz plaknes. Ieteicamā kvalitāte: Bauder VA 4
6883
4.06%
%
91 6%
3.0
91
Lūka
35
80
6563
2.48
7201
2.49%
22.050
22.130
3%
Tehniskā telpa
21.850
21.950
22.040
F
22.050
5002
+ 21.850 m
22.190
substrāts
150-230 mm
ar min. masu 90-140kg/m2 sausā stāvoklī (mitras augsnes masa par 50-60% vairāk nekā sausai)
21.940 1 kārta
drenāža
40 mm
aizsargplātnes
5 mm
2148
22.150
21.930
F
bitumena membrāna
4074
3.19%
4270%
3.29%
9
12
23
2-04
1.33%
siltumizolācija
21.980
21.980
5% 3.7 3459
22509
21.850
7% 1.7 7348
% 7.49 68 26
21.850
3.57%
On Right. The work in progress for two green roofs (both extensive and intensive). By taking the latest -actual CD drawing building details (for the roof and parapet) , my task is to add and assemble the chosen green roof system with all the necesary security solutions and according to chosen landscape design (materials) as well as rainwater collection points. 46 Sintija Jonikane I Portfolio 22.000
2.S F
2.S B
2.S C
2.S D
2.S E
22.150
2.E 6
254 5 30 5 255
5
500
tekne (piem. Hauraton RECYFIX STANDARD 200, Tips 100 ar spraugveida resti vai analogs)
Birojs
83 110 Plātnes augša 21.73m
oļi
pakaišu (izdedžu) izlīdzinošā kārta 10-50mm
230
+4.50m
256
pakāpiena augstuma atzīme +4.35m
500
+4.49m
+22.13m
plātnes augša +4.08m
silikona hermētiķis virsgaisma
320
+4.32m
siltumizolācija no max. 240 mm līdz min. 120 mm
ar kritumu
siltumizolācija veidota no poliuretāna stingrām putām PURin saskaņā ar LVS EN 13165:2013-03, CE marķējums , ar sekojošiem rādītājiem: - aprēķina siltumvadītspēja : λ ≤ 0.030 W/mK - spiedes stiprība pie 10% saspiežamības: CS(10/Y) 100. Instalācija: blīvi, ievērtējot ražotāja rekomendācijas.
2.S G
saplāksnis, 10mm
vienlaidus metâla kronšteins, cinkots
siltumizolācija no max. 400 mm līdz min. 120 mm
nesošais alumīnija profils
substrāts 150mm, augus skat. labiekārtojuma plānā
bitumena membrāna specifikāciju skat. būvelementu katalogā
+22.43
1.4% kritums
2.S I
2.S H
22.000
22.050
5593
1 kārta
ar lodlampu sakausēta elastīga bitumena membrāna ar starpkārtu no stiklšķiedras auduma, kā apakšējais slānis ar sakausētām šuvēm, 22.150 virsma ar talku, punktveidā līmēta vai sakausēta uz plaknes, ieteicamā kvalitāte: BauderFlex G4E
2-01
3872
3.35%
3.04
%
1.29
2-01
21787
21.850 % 3.044271
3950
1.37%
21.930 21.850
1050
21.980
400
oļi 70-100mm
400
0
36
22
2-04
40
1 kārta
22.150 ar ar lodlampu sakausēta bitumena membrāna starpkārtu no neausta poliestera auduma kā virsējais slānis, ar sakausētām šuvēm, virsma vienlaidus līmēta vai sakausēta uz plaknes, ieteicamā kvalitāte: Baukubit K5K
%
1.34
21.850
alumīnija L veida profils ar caurplūdes perforējumu 140*120(h)mm
pakaišu (izdedžu) izlīdzinošā kārta 10-50mm
2.E 5
14937
3001
bitumena membrāna
% 1.5013949
1 kārta
polietilēna folija ar 20 cm pamīšus izvietotiem 8469 slāņiem savienojuma vietā, brīvi ieklāta kā šķirkārta
21.930
šķembas 50-70mm
anodēts alumīnija parapeta nosegums, ar skaņu reducējošu pārklājumu
plātnes augša
1.40%
2.16%
15688
15689
2.16%
folija
Piekārtie griesti
Platforma
tekne 256*100mm
bitumena membrāna specifikāciju skat. būvelementu katalogā
fibre - cement vai koka nosegelements fibre - cement trapecveida a pmale 250*165(h)mm
šķembas 40-80mm betona plātne 400*600*50mm
blīvi, gareniski izvietotas aizsargplātnes, kuras veidotas no materiāla, kas aizsargā pret augu saknēm
2.18%
2.18%
Piekārtie griesti +20.250 m
betona plātņu segums
fr.Ø0.45 un 5% Ø0.063mm
2.E 4
1.53%19512
ģeotekstils
anodēts alumīnija parapeta nosegums, ar skaņu reducējošu pārklājumu
terase / intensīvais zaļais jumts
margas balsta drenāžas paklājs 2000*1000*43(h)mm
rūsināta tērauda vai alumīnija apmale ar pamata pēdu 300*300(h)mm
6389
skat. labiekārtojuma plānu
22.190
2.E 3
1.41%
74
15
2.0
5362
2%
22.030
22.190
22.030
3.59%
intensīvā jumta augi
margas statnis 40*40*1100(h)mm margas stiprinājuma metāla pēda h=35mm
67
4549
3551
M 2-09 M 3-09
M 3-02
2-02
2-02
22.030
22.030
4.1
%
54
Piekārtie griesti
2.E 2
71
4391
88
5%
22.050
2.25
2.27%
63
4.39%
2-03
73
2.74%
64
16
3.0
2.0%
4866
%
2.07
91
80
4.11%
13190
% 2.48 35
2.57%
22.050
Kolonna
3.1
1%
2-03
22.000m 7.stāva tīrās grīdas augstuma atzīme
+21.730 plātnes virsmas augstuma atzīme
ATSEVIŠĶS DEPARTAMENTS
21.950
21.850
22.190
388 150
6477
Variants Nr.2 - betonēta tekne uz drenāžas 40mm
22.130
4.32%
4147
50
21.850
4.82%
165
22.050
150
4.82%
4147
100
21.850
4.28%
4202
%
22.030
Piekārtie griesti
240
%
35
80
3.48
2.E 1
F
90
Piekārtie griesti
28
6882
3.48
80
35
% 3.478065
4.06%
Piekārtie griesti
bitumena membrāna
1 kārta
betona pārseguma plātne
280mm
ar lodlampu sakausēta elastiska bitumena membrāna ar starpkārtu no neausta stiklšķiedras auduma un 0.1mm alumīnija folijas, kā tvaika barjera, ar sakausētām šuvēm, sD vērtība > 1500 m, līmēta punktveidā vai sakausēta uz plaknes. Ieteicamā kvalitāte: Bauder VA 4
Ēdināšanas zāle
plātnes apakša
+8.80m
Plātnes apakša 21.45m
Parapet and roof garden details Sintija Jonikane I Portfolio
47
22
DR skats
SIA "ARHITEKTŪRAS UN DIZAINA FIRMA A PLUS"
OBJ. NR.
Meistaru iela 10/12, 602. kab. Rīga, LV 1012, Latvija Tālrunis 67282722
DzM-11-RAM
Z skats - ieeja Savrupmāja un saimniecības ēka Purvu ielā 12, Rāmavā, Ķekavas pagastā, Ķekavas novadā Izmaiņu projekts PASŪTĪTĀJS:
Residential building redesign Latvia, EU
BIROJA VAD. D.Kalvāne
24.09.2014
D.Kalvāne
24.09.2014
IZSTRĀDĀJA S.Jonikāne
24.09.2014
ARHITEKTE
Māris Zvirbulis
STADIJA
MĒROGS
TP
B/M
LAPA
LAPAS SATURS:
SAVRUPMĀJA. BŪVAPJOMA VIZUALIZĀCIJAS
D skats
AR-33 Izm 2
SIA "ARCCONSULT"
LAPAS
Aksnometrija I
Z skats
17
OBJ. NR.
Meistaru iela 10-601 Rīga, LV 1050, Latvija Tālrunis 67282722
DzM-14-BA
BIROJA VAD. D.Kalvāne
29.05.2015
ARHITEKTE
DA skatsD.Kalvāne
29.05.2015
IZSTRĀDĀJA S.Jonikāne
29.05.2015
Dzīvojamā māja Cālīšpurva ielā 15A, Baložos, Ķekavas novadā PASŪTĪTĀJS:
STADIJA
LAPAS SATURS:
LAPA
LAPAS
AR-18
19
Aleksandrs Lavišs, Marina Aleksjutina
VIZUALIZĀCIJAS
MĒROGS
TP
Z skats
Two years of my proffesional work experiencxe I devoted for the residential building design. Our office had an contract with the wood frame building construction company to design houses for private clients for them who wished to build an new house from wood, however some clients, after the final price estiamte decided to redesign theitr houses from wood frame to clay or aerated concrete block material as to built it was 20-30% cheaper than the wood bconstruction building.
SIA "ARCCONSULT"
ZR skats SIA "ARCCONSULT"
OBJ. NR.
Meistaru iela 10 Rīga, LV-1050, Latvija Tālrunis 67282722
DzM-14-KD
Ģimenes māja "Jaunķeizaros", Mārupē, Mārupes novadā PASŪTĪTĀJS:
R skats
BŪVPR. VAD. D.Kalvāne
06.05.2016
ARHITEKTE
D.Kalvāne
06.05.2016
IZSTRĀDĀJA S. Jonikāne
06.05.2016
Kristīne Drengere
AksnometrijaLAPA II
LAPAS SATURS:
BP
Vizualizācijas
A skats - ieeja
MĒROGS
STADIJA
BŪVPR. VAD. D.Kalvāne
28.01.2016
ARHITEKTE
D.Kalvāne
28.01.2016
IZSTRĀDĀJA S.Jonikāne
28.01.2016
LAPAS
21
OBJ. NR.
Meistaru iela 10 Rīga, LV 1050, Latvija Tālrunis 67282722
DzM-15-VIN
BŪVPR. VAD. D.Kalvāne
06.05.2016
ARHITEKTE
D.Kalvāne
06.05.2016
DMJ-15-GAU
BŪVPR. VAD. D.Kalvāne
15.07.2015
ARHITEKTE
D.Kalvāne
15.07.2015
IZSTRĀDĀJA L.Birstiņa
06.05.2016
IZSTRĀDĀJA S.Jonikāne
15.07.2015
Dārza mājas jaunbūve, paredzot esošās nojaukšanu Valdena ielā 19, Gaujā, Carnikavas novadā PASŪTĪTĀJS:
Vitālijs Smagins
LAPAS SATURS:
VIZUALIZĀCIJAS
STADIJA
LAPAS
AR-16
18
20
Vizualizācijas
SIA "ARCCONSULT"
MĒROGS
LAPAS
AR-13
14PASŪTĪTĀJS:
BŪVPR. VAD. D.Kalvāne
16.12.2015
ARHITEKTE
D.Kalvāne
16.12.2015
IZSTRĀDĀJA S.Jonikāne
16.12.2015
SIA "ARCCONSULT" Meistaru iela 10 Rīga, LV 1050, Latvija Tālrunis 67282722
ZA skats - ieeja
STADIJA OBJ. NR.
LAPA DzM-15-SIL
OBJ. NR.
OBJ. NR.
Meistaru iela 10 Rīga, LV 1050, Latvija Tālrunis 67282722
DMJ-15-SA
BŪVPR. VAD. D.Kalvāne
17.02.2016
ARHITEKTE
D.Kalvāne
17.02.2016
IZSTRĀDĀJA S.Jonikāne
17.02.2016
STADIJA
21.04.2016
ARHITEKTE
D.Kalvāne
21.04.2016
IZSTRĀDĀJA S.Jonikāne
21.04.2016
Savrupmāja, saimniecības ēka un lapene
PASŪTĪTĀJS:
STADIJA
MĒROGS
BP
1:100
LAPAS SATURS:
LAPA
LAPAS
AR-17
18
VIZUALIZĀCIJAS
Ieejas skats 2
24.09.2014
D.Kalvāne
24.09.2014
ARHITEKTE
Ielas skats 1
Ielas skats 2
LAPAS SATURS:
VIZUALIZĀCIJAS
LAPA
LAPAS
AR-12
14
SIA "ARCCONSULT"
SIA "ARCCONSULT"
OBJ. NR.
Meistaru iela 10 Rīga, LV 1050, Latvija Tālrunis 67282722
REK-16-BAU
BŪVPR. VAD. D.Kalvāne
04.11.2016
ARHITEKTE
D.Kalvāne
04.11.2016
IZSTRĀDĀJA S.Jonikāne
04.11.2016
Daudzdzīvokļu dzīvojamās ēkas pārbūve Dzīvojamās mājas rekonstrukcija un jaunbūve Meistaru iela 10-602 (izmaiņu būvprojekts) Rīga, LV 1050, Latvija DzM-16-VAL Tālrunis 67282722 Buļļu ielā 6, Rīgā PASŪTĪTĀJS:
Savrupmāja un saimniecības ēka skats - ieejanovadā Purvu ielā 12, Rāmavā, Ķekavas pagastā,ZĶekavas Izmaiņu projekts PASŪTĪTĀJS:
BIROJA VAD. D.Kalvāne
D skats
PAGALMA IELASSKATS SKATS 2
DR skats
MĒROGS
SIA "ARCCONSULT"
Z skats
D skats
DzM-11-RAM
16
BP
The building models were designed in SketchUp and Revit Architecture.
Meistaru iela 10/12, 602. kab. Rīga, LV 1012, Latvija Tālrunis 67282722
LAPAS
AR-15
Dārza mājas jaunbūve, paredzot esošās nojaukšanu
PASŪTĪTĀJS:
48 Sintija Jonikane I Portfolio
LAPA
D skats
SIA "ARCCONSULT"
OBJ. NR.
BP
VIZUALIZĀCIJAS
IELAS SKATS 1
SIA "ARHITEKTŪRAS UN DIZAINA FIRMA A PLUS"
MĒROGS
STADIJA
Māris Spilve
LAPAS SATURS:
ARCCONSULT 2014-2016
DR skats
IELAS SKATS 2
DzM-15-IN
BŪVPR. VAD. D.Kalvāne
Ieejas skats 1
IELAS SKATS 1
Savrupmāja Silaputniņu ielā 5, Tīrainē, Mārupes novadā
BP
VIZUALIZĀCIJAS
MĒROGS
TP LAPA
LAPAS
AR-18
MĒROGS
BP
Meistaru iela 10 Rīga, LV 1050, Latvija Tālrunis 67282722
D skats OBJ. NR.
LAPA
Laura Priede
LAPAS SATURS:
Z skats SIA "ARCCONSULT"
STADIJA
LAPAS SATURS:
Savrupmāja un auto nojume Vīnakalna iela 2, Ikšķile, Ikšķiles novads PASŪTĪTĀJS:
Meistaru iela 10-602 Rīga, LV 1050, Latvija Tālrunis 67282722
PASŪTĪTĀJS:
Aksonometrija SIA "ARCCONSULT"
DA skats - ieeja
Savrupmājas jaunbūve, paredzot esošās mājas nojaukšanu
DzM-15-PU
ZA skats
1:100
AR-18
OBJ. NR.
Meistaru iela 10 Rīga, LV 1050, Latvija Tālrunis 67282722
Māris Zvirbulis
LAPAS SATURS:
STADIJA
MĒROGS
TP
B/M
LAPA
LAPAS
DR skats
Aksonometrija 1
Aksonometrija I
PAGALMA SKATS
Aksonometrija 2
OBJ. NR.
Meistaru iela 10-602 Rīga, LV 1050, Latvija Tālrunis 67282722
DzM-16-KA
BŪVPR. VAD. D.Kalvāne
14.10.2016
ARHITEKTE
D.Kalvāne
14.10.2016
IZSTRĀDĀJA S.Jonikāne
14.10.2016
Savrupmāja
PASŪTĪTĀJS:
STADIJA
LAPAS SATURS:
LAPA
LAPAS
AR-07
09
Egita Baumane BŪVPR. VAD. D.Kalvāne
PASŪTĪTĀJS: MĒROGS STADIJA 07.10.2016 BP
D.Kalvāne
07.10.2016 LAPA
IZSTRĀDĀJA S.Jonikāne
07.10.2016
ARHITEKTE LAPAS SATURS:
MĒROGS
OBJ. NR.
VIZUALIZĀCIJAS
STADIJA
AR-41 izm
VIZUALIZĀCIJAS
LAPA
LAPAS
AR-10
11
Pasūtītājs: SIA "VALENTĪNA NAMS"
SIA "ARCCONSULT"
MBP
Vizualizācijas
MĒROGS
MBP LAPAS SATURS: LAPAS
reģ. Nr. 40103972221
BPDV: Elijas iela 17-302 Rīga, LV-1050, Latvija Tālrunis 67282722
D. Kalvāne
DAUDZDZĪVOKĻU DZĪVOJAMĀS ĒKAS PĀRBŪVE Valentīna ielā 9, Rīgā
16.03.2018.
Objekts:
16.03.2018.
Rasējuma nosaukums:
Sertifikāta Nr.10-0590
Sintija Jonikane I Portfolio
Izstrādāja:
S. Jonikāne
VIZUALIZĀCIJAS
Projekta Nr. DzM-16-VAL Stadija: Lapas Nr. Skaits
BP AR-10
49
Mērogs
23
Building redesign for the Hotel Riga, Latvia
3. STĀVA EKSPLIKĀCIJA 3. STĀVA PLĀNS 1 : 100
2 4
AS-2
3
AS-2 E 315 5.85 m²
G6
1010
S5
1030
2520
1300
1500
1080
760
L-11
S5
S6* 310 17.17 m²
G4
3
5'
2
S5
AS2
1860
305a
2100
G53.75 m² 2100
1270
G4
L-15
L-5
2790
550
830 1050
1810
270
2100
313 79.06 m²
+8.640
3600
D-5 EI 30
G6
300 4.58 m²
2030
480
1030
910
3.75 m² G5
1970
1150
DN-1L EI 30 1030
B'
S5
1030
1030
DN-1L EI 30
2020
302a 4.02 m² G5 2250
S5* S5*
G4
301a 4.21 m² G5 2350
D-8L
S5
302 S5* 20.06 m²
Platība, m2 4.58 m² 21.07 m² 4.21 m² 20.06 m² 4.02 m² 21.03 m² 3.75 m² 17.98 m² 3.75 m² 17.54 m² 3.75 m² 18.02 m² 3.75 m² 17.78 m² 4.37 m² 16.03 m² 3.49 m² 17.61 m² 4.03 m² 17.17 m² 3.99 m² 17.00 m² 4.18 m² 16.13 m² 3.95 m² 79.06 m² 2.94 m² 5.85 m² 357.09 m²
101
LOGU SPECIFIKĀCIJAS NR.
SIENAS TIPS
L-1 D-1 EI 30 S11
GRĪDAS AUGSTUMA ATZĪME (m)
+0,000
DURVJU SPECIFIKĀCIJAS NR.
ESOŠĀS KONSTRUKCIJAS AIZMŪRĒJAMA AILA JAUNIZBŪVĒJAMA AILA UZ LEJU IZKAĻAMA AILA JAUNBŪVĒJAMAS SIENAS
2250
S6*
JAUNBŪVĒJAMAS ĢIPŠKARTONA SIENAS
301 21.07 m²
ESOŠIE VĒSTURISKIE - SAGLABĀJAMIE LOGI
L-8v
UGUNSDROŠA STARPSIENA - EI 60
G4
G4
APZĪMĒJUMS PLĀNĀ
TELPAS NUMURS EKSPLIKĀCIJĀ
UGUNSDROŠAS DURVIS/LOGI - EI30
3850
DN-1L EI 30 D-8K
2100
S6*
5700 *
900
DN-1K EI 30 303a D-8K
303 21.03 m²
G4
G4
5160
Ugunsdzēsības skapis
1710 *
304 17.98 m²
S5
1070
NOSAUKUMS
4960
2290
650
830
G4
1330
DN-1L EI 30 304a G53.75 m² D-8L
1750
920
3330
4290
Jauna EL sadalne esošās vietā 1030
1500
3450
Ventilācijas šahta S5*
Nr.pl Nosaukums D korpuss 300 Kāpņu telpa 301 Numuriņš 301a Sanmezgls 302 Numuriņš 302a Sanmezgls 303 Numuriņš 303a Sanmezgls 304 Numuriņš 304a Sanmezgls 305 Numuriņš 305a Sanmezgls 306 Numuriņš 306a Sanmezgls 307 Numuriņš 307a Sanmezgls 308 Numuriņš 308a Sanmezgls 309 Numuriņš 309a Sanmezgls 310 Numuriņš 310a Sanmezgls 311 Numuriņš 311a Sanmezgls 312 Numuriņš 312a Sanmezgls ar dušu 313 Gaitenis 314 Palīgtelpa 315 Kāpņu telpa PIEŅEMTIE APZĪMĒJUMI
312 16.13 m²
960
320
1550
S5*
D-8L
1300
450
2050
DN-1L EI 30 D-8L
305 17.54 m²
S5
306 18.02 m²
G5
L-3
2470
140
1330
1030
780
AS-2
2290
G4.1
720
311a 4.18 m² G5
G4
1860
306a 3.75 m²
830
The building model and all construction drawings were drawn in Revit software.
S3
3190
820
AS-5*
B
S6*
312a 3.95 m²
140
900
S6*
L-5
AS2
290
30
1030
AS-2
1910
G4
2940
1030
G5
D-1K S5
450
DN-1K EI 30 D-8K
380
2040
1300
S5* 1030
1660
110
A'
1030
S4* G5
314 2.94 m²
DN-1K EI 30 S7 D-8L
1880
DN-1K EI 30
2180
830
308a 310140 3.49 m²
1050
1050
D-8K
620
S3
311 17.00 m² 1030
600
G4
240
860
1400
930
G5
830
2560
307a 4.37 m²
DN-1K EI 30 D-8K
1940
1790
G4.1 G4 S5 S5 S4
S5
2550
307 17.78 m²
S6*
308 16.03 m²
4450
G4
750
3650
830
4440
830
3860
1300
830 130
DN-1L D-8L EI 30
4170
G5
L-5
2520
310a 3.99 m² 820
550
L-3
AS2
880
1000
L-3
D
G4
° .00 90
S5* S5* 90
AS2
L-3
309a 4.03 m²
G5
S7
1530
1030
L-3
309 17.61 m²
210
2150
AS2
1
C
L-3
DN-1L EI 30 D-8K
1770
L-8
3
1
4
L-3
DK-1L EI 30
1200
Elevation from the main Marstalu Street
L-5
An existing building, buit in 1906 by an architect Paul Mandelstam in Old City of Riga has been redesigned for the new Hotel possible extension recently. An idea to redesign an existing buildineg jus next to the new one (in picture on right) designed by the same - chief architect- came in designing process, thus adding the forth building to three newly built hotel buildings in existing, previously empty Old city quarter, near the river Daugava. In redesign process there were implemented slight existing building alteration like ground floor window alteration to lower level ,as well as for the 5th floor, currently attick, were added four new windows to illuminate new hotel rooms.
Street view from the main Marstalu Street
KĀPŅU TELPAS SIENA - REI 60 PIEKĀRTO GRIESTU KONTŪRA
A
L-3
B2
L-7
3760
L-3
L-3
4550
G6
L-3v
L-3
3 L-1
50 Sintija Jonikane I Portfolio
3680
4'30230 1
1
3' 4
L-3
L-1 3
4000
L-3
4680
L-3
L-3
A
L-14
AS1 2
5
PIEZĪMES: 1. Projektējamā augstuma atzīme + 0.000 atbilst absolūtai augstuma atzīme + 5.500 Latvijas normālo augstuma sistēmā. 2. Izmēri doti milimetros, augstuma atzīmes metros. 3. Plānus skatīt lapās AR-1 - AR-7. 4. Fasādes skatīt lapās AR-8 - AR-10 5. Krāsu pasi skatīt lapās AR-11.1 un AR-11.2. 6. Griezumus skatīt lapās AR-12 un AR-13. 7. Ārsienu un iekšsienu tipus skatīt lapās AR-14.1 un AR-14.2. 8. Pārsegumu un jumtu tipus skatīt lapā AR-15. 9. Esošo un jauno logu un durvju specifikāciju, un rasējumus skatīt lapās AR-16.1 - AR-19.8. 10. Ar sarkanu (L-3v) (L-8v) apzīmētie logi ir ēkas celšanas laika orģinalie (vēsturiskie) logi, kurus paredzēts saglabāt un restaurēt, pārējie logi un ārdurvis jaunāku laiku kopijas, ko projekta ietvaros paredzēts nomainīt pret jauniem, vienota izskata un materiāla koka logiem un durvīm. Pasūtītājs: SIA "MĀRSTAĻU 28",
Reģ.Nr. 40203026057
Sintija Jonikane I Portfolio Projekta Nr.
01/2017
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