Landscape + Architecture Portfolio by MA.Ing. Evelina Knyzelyte by Evelina Kny

LANDSCAPE + ARCHITECTURE

evelina kny- PORTFOLIO M.Ing Evelina Knyzelyte ewelina.knyzelyte@gmail.com phone: +40 176 87770973

2015

About me

Resume WORK EXPERIENCE INTERNSHIP 19.January 2015 - 19.April 2015 „RAINER SCHMIDT LANDSCAPE ARCHITECTS AND CITY PLANNERS“ Reichenberger Straße 113a,10999 Berlin, Germany

SOFTWARE

EDUCATION MASTER OF ENGINEERING – LANDSCAPE ARCHITECTURE 2012 October - 2014 August NÜRTINGEN-GEISLINGEN UNIVERSITY OF APPLIED SCIENCE (HFWU) Neckarsteige 6-10, 72622 Nürtingen, Germany

INTERNSHIP 22.October 2012 - 06.February 2013

BACHELOR OF ARCHITECTURE 2008 September - 2012 June

„FRANK FEISTEL LANDSCAPE ARCHITECTURE OFFICE“ Poststraße 3, 99094 Erfurt, Germany

KAUNAS UNIVERSITY OF TECHNOLOGY (KTU) K. Donelaičio gatvė 73, Kaunas, Lithuania ERASMUS LP PROGRAMM 2011 February – 2011 June UNIVERSIDAD POLITECNICA DE VALENCIA Adresse: Algirós, 46021 Valencia, Spain

AutoCAD

6 years

ArcGIS

3 years

SketchUp V-Ray

6 years 2 years

Revit

2 years

3Ds Max

4 years

Photoshop

5 years

Illustrator

3 years

InDesign Vectorworks

2 years 1 year

LANGUAGES Lithuanian

native

English German

C1 B2-C1

Spanish

WORKSHOPS

Page 2

“BRUSSELS PERIPHERY - PERSPECTIVES OF THE URBAN LANDSCAPE”. BELGIUM [2014];

“A FUTURE FOR THE COLENTINA LAKES CHAIN”; “RURAL FRINGE AND PRODUCTIVE LANDSCAPES: MULTIFUNCTIONAL RURAL LANDSCAPES AND THE ECONOMIC DIMENSION”, BUCHAREST, ROMANIA [2015];

“NEW LANDSCAPES FOR OSTIA ANTICA”.ROME, ITALY [2013];

“OPERATIVE TERRITORIES: RE-DESIGNING THE LANDSCAPES OF TOURISM MASTERCLASS”. SITHONIA, GREECE [2015];

ARCHITECTURE

URBAN DESIGN

Content

OTHER

Projects

GREEN LINK

DYNAMIC SENSCAPES

02 ENERGY NEIGHBOURHOOD

SMART VILLAGE

ZIGZAG

3 CORNERS OF MAC

GREEN GAP

THEORETICAL APPROACH

ANALYTICAL APPROACH

TECHNICAL DRAWINGS

DELTA CONNECTION

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Green LINK Heritage Landscapes

LOCATION: PROVINCE OF ROME

HISTORICAL CHANGES

DESCRIPTION The project started with the workshop, which took place directly in the site, the first ideas and impressions were gathered in the groups of international students. After the proper analysis of the site and sketching the concept, we were working further on the detalization of the project in Germany. The project was nominated as the best studentsâ&#x20AC;&#x2122; project and exhibited in the partner university Hochschule Weihenstephan-Triesdorf, Freising, Munchen GOALS -to find connections with the glorious past of Antique city; -to create new identities and new landscapes; -to attach new connections and new activities for locals and tourists; -to reach sustainable development; -to recreate valuable monuments and potential touristsâ&#x20AC;&#x2122; atraction points; [SWOT] ANALYSIS [Strenghts; Weaknesses; Opportunities; Threats]

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Analysis LANDSCAPE LAYERS. 6 TYPOLOGIES OF LANDSCAPE

STRATEGY FOR DEVELOPMENT

The Strategy for Development is divided into different sectors touching different zones: ENVIRONMENTAL DEVELOPMENT: creating continious landscape with the green linkage, river restoration, maintenance of natural reserves CULTURAL DEVELOPMENT: reflecting the past and emphasize the natural values, cohesion of modernity and antiquity SOCIAL DEVELOPMENT: establishment of agricultural communities, defining new social relationships and activities, mutual communication between locals and tourists

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Green LINK

DEVELOPMENT OF ACTIVITIES WITHIN 6 LANDSCAPE CHARACTERS

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LEGEND 1 Sport leisure 2 Archeological Site 3 Public Square 4 Urban Agriculture 5 Market 6 Food Jungle 7 Passive Recreation Fields 8 Active Recreation Fields with Old Farm 9 Old Warehouses Memorial 10 Riverside Park 11 Lighthouse Park 12 Water Park

ACTIVITIES AND CONNECTIONS

Concept 01

12 Trajano Harbour 11

7 2

4 5

Ostia Antica

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Green LINK

RECREATION OF ANCIENT STURCTURES: OLD WAREHOUSES

The idea of Warehouses Memorial came up from the historical maps. Warehouses had a very important function in ancient times in the whole region of Rome - it was the harbour with the main good flows to Rome, warehouses were functioning as the storage space and commerce. During the time, the sea moved forward and left this area empty and nonessential. The new development is seeking to recreate the lost historical structures by adding new values, adjusting to the current demands and finding the sustainable architectural approach. The vision for this area is to create a memorial historical park with educational, recreational and commercial areas. These commercial areas are settled in the inner yards of the buildings creating the public space for tourists and locals. The goal is to enhance local economicy while creating the platforms to bring together locals and tourists and supporting local producers through different programs such as the CSA (Community Supported Agriculture) or Agro-Farm Tourism.

PUBLIC SQUARE WITH THE MARKETS AND RESTAURANTS

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ORIGINAL SHAPE

TRANSFORMATION

FUNCTIONALITY

SUSTAINABILITY

VIA SEVERIANA HISTORICAL ROAD AND AGRICULTRAL RESEARCH CENTER

Visualisations

MODIFICATIONS OF OLD WAREHOUSES PRESENTING NEW CULTURAL PARK

THE COMPLEX OF RECREATED ANCIENT STRUCTURES IN THE NEW CONTEXT

CULTURAL PARK AND URBAN AGRICULTURE

Page 9

Green LINK AGRICULTURAL DEVELOPMENT: PASSIVE AGRICULTURAL FIELDS AND RECREATIONAL AREAS

SECTIONS THROUGH DIFFERENT AREAS Page 10

THE WATER PARK: PRESENTING DYNAMICS OF

Visualisations NATURE AND RECREATING OLD RIVER BASINS

THE LIGHTHOUSE PARK - NEW PLATFORM FOR ACTIVITIES AND ENTERTAINMENT

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Dynamic Senscapes

SENSORIAL ANALYSIS MAP

SENSORIAL URBANISM. DESIGNING ATMOSPHERES SENSORY SITES AND THE PURSUIT OF ENJOYMENT: LANDMARKS OF SENSESCAPES

02 CLOSENESS - OPENESS

WATER BOUNDARIES

Group project: Evelina Knyzelyte, Mohamed Magdi Hargas, Virginia Malami, Danae Siaveli Page 12

The aim is to create a common sense atmospheres considering its dynamics and connections with the landscape elements. The development strategy is based on the sensorial analysis of the site based on the evaluation of 6 senses: visual, kitetic, tactile, thermal, aural and chemical. The most pleasant or discomfort sites are identified and the proposal seeks to strenghten or remove some of the sensual qualities in each site. The visitor experiences a distinct transition from an urban, loud, hard-surfaced environment to an excentuated boundary that predisposed for a change in the sensory experience.

Analysis SENSES BY MATERIALS

STRATEGY

TERITORIAL ANALYSIS

The strategy of Neos Marmaras consists of the framework for the development of experiential tourism as a new form of connecting with the history, culture and natural landscape of the territory. The main focus point is the sea promenade joining different urban and natural senscapes and functioning as the strict border to water. Along the promenade we promote different sensual experiences designed by topographical changes, material uses and closure-disclose. The main emphasis are the soundpark and the memorial site enhanced by tactile experience. The change of materials and waterpathways creates dynamic atmospheres for the Neos Marmaras visitors. Experiential tourism is routed on sharing moments of sensory and environmental pleasure and/or discomfort.

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Dynamic Senscapes

TACTILE SITE: MEMORIAL BOAT

The atmosphere consists of built environment and significantly from accidental and overlooked odours, natural sounds and surfaces. Urban planning of Neos Marmaras operate primarily as economic and visual practices, with little thought given to the auditory, microclimatic, olfactory and tactile qualities of a space. We promote alternative form of tourism based not on the landscape consumption but through enhancement of experience of unique and natural elements. New interventions in the area are: smell walks on the sea promenade, the Sound Park, Memorial site with boat monuments, the Tactile Theather. The different sensory experiences are strengthened by the overlapping of thermal and visual stimuli, with variations is shadow/sun patterns, framed and open views towards the sea and the mountain. The sensory experience can be recorded in an online platform, virtual space where visitors can share their feelings, senses and experience. As the participatory tool, it helps to personalize unfamiliar place.

SECTION ALONG THE SOUND PARK Page 14

Visualisations SOUNDSCAPE PARK

The proposal of new sensory parks builds the scenario of an experiential sustainable form of tourism that is based on peopleâ&#x20AC;&#x2122;s engagement with the quality of their natural and built environment. Experiences, touristic and local, are collected and notated on an online application, created and promoted by the Municipality of Neos Marmaras, that invites visitors and locals to interact with and evaluate the quality of their spaces. In this way, commonsensescapes become a participatory tool that strengthens communication between the citizens and the local authorities about decisions made on urban planning of Neos Marmaras.

SECTION THROUGH THE MEMORIAL SITE Page 15

Energy Neighbourhood Renewable Energy Planning

DESCRIPTION The academical project on renewable energies development came after theoretical and practical research on renewable energies technologies used in Germany. The chosen site for the project represents the quiet village, seperated and unconnected to other parts of the Filderstadt city. The area is know for its fertile soil and farming traditions. Obviously, the location and potential for agricultural development is extensive. The main question is how to recover the sleeping village into activity center for recreation, agricultural production and research center for renewable technologies?

LOCATION MAP

GOALS -to promote self-sufficient agricultural communities; -to promote the usage of renewable energy; -to combine the innovations of new technologies with traditional agricultural measures; -to promote awareness of renewable energies; -to find innovative approach to design Harthausen village;

VISION

CULTURAL IDENTITY - to preserve valuable agricultural landscape, to strenghten the Drei Linden cultural site RECREATION - to create posibilities for recreation, to implement agricultural tourism SOLAR VILLAGE - to use the potential of the site conditions for the renewable energy production and create new identity for the village

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LOCAL AGRICULTURE COMMUNITY - to implement CSA (Community Supportive Agriculture) model with community gardens, market places and greenhouse restaurant with â&#x20AC;&#x2DC;pick up youselfâ&#x20AC;&#x2122; model

PROTECTION

ANALYSIS ON THE SITE LEVEL

Analysis

03 LAND USE

Page 17

Energy Neighbourhood

AREAL VIEW

CONCEPT

03 AGRI-TOURISM

LEGEND 1. Short rotation copping 2. Drei Linden Culturl Site 3. Biotope preservation 4. Renewable Energy Park 5. Orchards 6. Green bridge 7. Biomass plant 8. Agri-community 9. Agri-tourism 10. Educational research center Page 18

Green route Connections of communities Agricultural sites: groceries, farmers, communities Renewable energy devices

CONCEPTUAL SCHEME

CURRENT

CURRENT COVERAGE OF ENERGY

RENEWABLE ENERGY PRODUCTION

Agricultural park CURRENT SCHEME OF ENERGY

PROPOSED SCHEME OF SELF-SUFFICIENT ENERGY NEIGHBOURHOOD

PROPOSED

PROPOSED COVERAGE OF ENERGY

DREI LINDEN CULTURAL SITE - Second World War Memorial

New approach to the site seeks to change the current scheme of energy to the more sustainable self-sufficient model. Currently, the community is dependent from energy supplier and municipality, we propose self-sufficient community based on the collaboration with the energy department of municipality, developers of renewable energy technology, stakeholders and other neighbourhood communities. The proposal lies under innovative usage of renewable technologies: production of renewable energies, smart grid transmission and storage.

Page 19

Energy Neighbourhood

THE PLAN OF RENEWABLE ENERGY PARK

SCHEMES OF MOVEMENT

9 10 5 3

6 4

ENERGY PRODUCTION

LEGEND 1. Green area - continuity of orchard gardens 2. Passive relaxation fields with Solar panels 3. Solar panel fields with sportive activities 4. Kinetic energy playgrounds 5. Rainfall water collectors 6. Exhibitions of renewable energy technologies 7. Existing School 8. Fields for performances 9. Water tubes 10. Bioreactors 11. Green restaurant Page 20

The design of the energy park was inspired by nature forms. The structure of the paths reminds the veins in a leaf. The main path waves through all the park, pulsates, creates dynamic movement and lead viewers to catch different prospects of surroundings. The aim of the energy park is not just production of renewable energy, but also educational, raising self awarenes, encouraging innovations and creating a pleasant environment for citizens, with relaxation areas and playgrounds for children, teenagers and adults. People are able to experience renewable energies, produce energy on their own, learn about the technology of enewable energy. The renewable energy park is well integrated to the village, creates new routes for tourists and is part of the daily routine for locals.

Renewable Energy park

SOLAR ENERGY TREES IN THE RELAXATION AREA

KINETIC ENERGY PLAYGROUNDS

DESCRIPTION OF TECHNOLOGIES

The park uses innovative devices to produce renewable energy from wind, sun, soil and kinetic energy. The seasonal weather conditions influence the productivity of energy in each area, some parts are more productive in winter, while others in summer. The concept of ‘living in the renewable energy neighbourhood’ considers the needs for recreation, social interaction and sports facilities, Renewable Energy park integrates renewable energy production in daily activities, raises awareness and encourage the innovativeness in energy reuse and production.

The park integrates new technologies from the reference projects: BIO REACTORS - uses algae culture in photo bioactors to produce oil, biomass, while improving soil, landfill gas management, leachate treatment. SOLAR ENERGY FIELDS - solar panels change the colors according to the weather changes. WINDSTALK - the concept devised by Atelier DNA allows a comparable amount of electricity to be generated by the wind. The design of windstalks have better visual impact on the site and reduce vulnerability for birds and other species.

TECHNOLOGICAL DEVICES WITH THE PROJECTS EXAMPLES

BIOREACTORS FIELDS AND GREEN RESTAURANT WITH ‘PICK YOURSELF’ SERVICE

Page 21

Smart Village

Peripheral Development

04 DESCRIPTION Sustainable development on Brussel peripheries was 2 weeks workshop held in Brussels in the collaboration with professionals, local experts and international students. AIMS The aim of workshop was to develop resilient strategies for periphery considering environmental, economical, technological and political hazards.

Page 22

STRATEGIES: Our approach was considering technological drivers: WIFI connection, virtual environments, social changes and globalization. We propose modernization of agricultural technologies changing the mono-functional agricultural fields to multi-functional agricultural islands for recreation, food production and community development. Public spaces integrated to nature creates interaction of real world and cybernetic space.

STRATEGY FOR SELF-SUFFICIENT WIFI COMMUNITY

STRATEGY FOR DEVELOPMENT

THE CONCEPT FOR IT-VILLAGE DEVELOPMENT

Concept

INTEGRATION OF AGRICULTURAL ACTIVITIES

ECO-CYCLE AND ECO-BALANCE

SUSTAINABILITY MEASURES IN PERIPHERAL DEVELOPMENT

Page 23

Smart Village CONCEPT WIFI connections might change the function of the city and the model of city village as a pleasant environment for working and living at home would appear. We propose interactional hubs of the cities, connected by virtual connections and green infrastructure - green islands for agriculture and community gardens with recreational possibilities and food production. The defined characters of settlements promote diversity and keeps the cultural charasteristical elements of each village.

COMPARISON OF SPATIAL PATTERNS

periphery

urban spaces

schematical comparison

Page 24

Concept TIMELINE FOR DEVELOPMENT - growing clusters

CURRENT STATE - peri-urban sprawl

IN 2030 - defining the poli-centers

IN 2050 - system of villages and growth of green islands

STRATEGY FOR THE SMART GROWTH

Page 25

Delta Connection

River Restoration

DESCRIPTION The project on Landscape Design was accademical project ran through the ERASMUS exchange semester in Polytechnic University of Valencia, Spain. The project site represents the gap between the old town and new touristical developed area on the coast, between two different typologies of nature: the sea line and River park. AIMS The main aim of the project is to come up with the proper development joining together the natural elements, to use properly the site conditions and potential, while keeping the natural resources and providing the accomodation facilities for seasonal tourists and local inhabitants. The critical point of the site is to control the disperse growth of touristical accommodations definding the combination of the old town and growth parameters for the new developments, strengther the character of the river and mountain and open the sea views from the promenades.

05 LOCATION Cullera (Valencia,Spain) is the growing touristical area unique for its natural resources: mountain, river, sandy beach and heritage site - the castle with beautiful panorama view from the mountain. The main problem is unplanned touristical developments along the seaside line, which created the dispressed pattern of streets, not functioning well together with the existing town structure. New proposed development connects the allotment of street grids, provides entertainment facilities for tourists with walking promenade along the River, Sea and Harbour. Page 26

LOCATION MAP

CONCEPT

Concept

DESIGN STRATEGIES

DESIGN STRATEGY

The Design strategy focus on the Reconnection of different street grids from both sides creating two main axes in the marina. Another point is to recreate natural parks, creating the smooth change between seaside and river park. The program aim is to create the system of different landscape elements: river, sea, mountain and town. The concept creates the program through river promenade, seaside, arbour and commercial areas, sport facilities. Page 27

Delta Connection MASTER PLAN

WATER LAYER & LAWN: COASTAL PARK LEGEND Natural elements: #1 Mediterranean Sea #2 Cullera’s mountain #3 Cullera’s beach #4 Jucar river Urban elements: #5 Old town #6 New town New Development: #7 Active transition between old town and developed area #8 Mixed urban development #9 Riverside park and Delta-Mouth bird park #10 New Harbour #11 Coastal park

Page 28

GROUND LEVEL VEGETATION: SHRUBS

Vegetation GROUND LEVEL: SPECIES OF TREES

SECTION ALONG THE PARK

Page 29

Zigzag

Parking and offices

DESCRIPTION The project is from Bachelor studies of Architecture in Kaunas. The task was to design the building with 333 places for cars and offices in the campus of University. AIMS The main issue in the long site was to find the proper connection with the existing Design faculty with the unconventional structure built in Soviet Union and to manage the flows of cars. Page 30

Analysis DIRECTING THE TRANSPORT FLOWS

SITE PLANNING

The cars movement is follows the shape of the building, which itself creates a new scheme of parking. Traditional model was modified into one way parking on the ramps with 2% of declination. In this way the efficiency of car flows is improved while the cars are directed to the first free places without pre-check.

Page 31

Zigzag 01

UNDERGROUND FLOOR

Page 32

GROUND FLOOR

FIRST FLOOR

Plans 01

ROOF CONSTRUCTION

SECOND FLOOR

ROOF FLOOR

ATTACHEMENT OF GLASS ROOF

ATTACHEMENT OF FACADE PL

Page 33

Zigzag 01

INTEGRATION TO ENVIRONMENT

INSPIRATION FOR INNOVATION

The site is on the hill of the city park with the Zoo garden below, it is an important part of the city having sports, educational and commercial facilities, university departments. The building is rather large (approximately 5000sq.m) but the slight growth of platforms creates the visual effect of growing hill, reflecting the topography. The defined correlation with the existing Design faculty and reflection of its shape is creating the illusion of junction.

The modern design of the building was chosen to reflect the current demand of students for innovation, giving inspiration to think forward and to develop for future. The dynamics and uncertainty are the main characteristics describing the current mental state of students. The aim is to provide capacity and leave space for flexibility and uncertainty.

Page 34

Visualizations 01

EXTERNAL INTERIOR - SKY AS THE MAIN ELEMENT

GAPS - SPACES FOR INTERACTION

Nature playes an essential role in this design. The building is projected to open the gaps to natural environment, also to catch natural lightening from the sky for offices inside and to integrate external environmental as the interior element. The sky could be seen from each floor offices in this way creating the ambiental environment of being outside.

The interior space has well developed public spaces for interaction between different offices. There are different size offices with the possibility to combine several companies. The gaps are also serving as vertical connections between different levels having the access to the parking areas.

Page 35

3 Corners of MAC

MON UME NT F MEA OR NIN MOD GO MUL ERN FM ODE TI-F ITY UNC RN ART TIO NAL ITY

Page 36

IDEA FOR MAC

Y B R U IET H FO C L R A SO PE R U E D LT TIV AN U C EA TS R F C A R C

SITE The site was chosen in the center of the city in the island of Nemunas where were new construction of Arena was taken. The site has many possibilities to develop the hub of culture, society and commerce. The central location plays the main role for design. The chosen architectural expression of modernity, its dynamics is reflected in the triangle shape, the twist of triangle plays the main role in the site. The is changing the perspectives from different view angles. The main axes are directed to the main marks in the site: Donelaitis square, old city, arena, river steam. The sharp corners of building are pointing to the main urban streets, creating dynamic perspectives.

Moder Art Center

DESCRIPTION The Modern Art Center was the defence project of Bachelor course in Kaunas University of Technology.

T EN EM ON AR S I U T AM RAC T AT TIS

R TO

Analysis MAIN VIEWPOINTS TO THE SITE

SITE PLANNING: PROGRAM

SYSTEM OF TRIANGLES

SITE PLANNING: VIEWS

Page 37

3 Corners of MAC

GROUND FLOOR

Page 38

FIRST FLOOR

SECOND FLOOR CIRCULATION OF BUILDING The movement is developed according to the shape of triangle with the central triangle from glass - atrium serving as the main entrance to the building and spreading the social flows. The whole building is formed by ramps, which are gradually growing and creating the inside movement along galleries. The building starts growing from the amphitheater directed to the view to Nemunas island, circulates around the urban environment with the focus points to the riverside, squares and arena reaching the highest point with the view to the Old Town.

Analysis

CONSTRUCTIONS

FOUNDATIONS PLAN

ROOF PLAN

DETAIL IF THE CORNER

UNDERGROUND FLOOR

FIRST FLOOR

DETAIL OF THE GLASS ROOF

SECOND FLOOR

THE FUNCTIONS The main purpose of the building is to exhibit different types of art: performance art, music, sculpture, paintings and crafts. The multi-functionality of building relies under the posibility to transform spaces and adapt them for different events. On the second floor there is the creativity center - the meeting place for artists and peoeple. The performance hall has around 500 places with the stage for dancing, acting, singing. The building also has open air performance hall below the ramp main ramp dedicated for amphitheatre with the view to the park.

Page 39

Green GAP

Educational-Recreational Center

DESCRIPTION The project wa designed in the Architecture course in Kaunas University of Technology in the second semester. The task was to design the educational-recreational center in the campus of university. LOCATION The site is found in the rural area, on the lake of Kaunas in the natural forest. Page 40

LOCATION

CONCEPT

Basic shape

Volumes

Concept

Gaps

SITE

Page 41

Green GAP DESIGN The modular development of the building was chosen to reflect the natural conditions and the configuration of the site. The whole building is covered with the flat roof, which lead to the play of 8x8 size modules. The composition of modules with the volumes was selected according the the functionality of inner spaces, emphasizing the entrance hall, restaurant and conference room.

03 SITE PLAN

Page 42

GROUND FLOOR PLAN

Visualization

The main interior element of the building is nature, cuttings of the roof help to bring nature inside the building in this way creating the vitality of composition and function. The movement inside the building creates different experiences for viewer: opening nature, semi-closed spaces and closed blocks. The main idea of this composition is to frame nature and create the sense of living and learning in nature.

Page 43

1.00

3 x 13 x 34

02 2.6 %

C-0-G-01

+1,455UK St mit Lochblecheinsatz (mind. 0,15m² freier

2,0% Gefälle

2.55 % SV

Fenster verschoben

1,6 %

Rw,b ≥ 33dB

DET 23b

0.85

527.40

ca.0.40

ca.0.20

OK RD 527.045

C1-0-TH-02

RD 527,34

Decke TGa im Gefälle 2,5 %

% 0

527,86

DET 24b

527,95

3.5 %

SV Bewohnergarten

DET 23b

527,89

DET 11b

OK RD 527.31

2.5 % Terrasse C2-0-050 FB: Plattenbelag

527,79

Index 01 02

ca.0.20

526.65

OK RD 527.25

527.15

ca.0.20

527.10

526.90

ca.0.05

527.30

6.0 %

527.91

1.5 %

527.85

-0,61

527,94

63 cm 527,94 RD 527,31

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WA1-B/C-5´

Schnit B/C 5-5´

WA1-B/C-2´

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527.49

WA1-B/C-4´

6.0 %

61 cm

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02a

0.55

2,9%

RD 527,34

gez. EK EK

Datum 04.03.2015 25.03.2015

Inhalt, Änderung, Ergänzung Überarbeitung Überarbeitung

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DET 38

RD 527,255

2.0%

52 cm 527,83

Asphalt siehe Regeldetail DET 12a

MOK 527.95

-0,695

527,94 527,95

ca. 56 cm

HP OK RD Tga -0,61

Firstlinie Decke über Tga

DET 12b

527,95 69,5 cm

527,89

527,82

20 cm

52 cm

Leitungen TGA

2,0%

-0,63

2. RW Rw,b ≥ 33dB

1.00

01a

527,89 21,5 cm

25 cm RD 527,625 OK RD Tga Rampe -0,6123,5 cm

RD 527,625 RD 527,34

2,5%

Grundstücksgrenze

Schnitt Haus B/C 4-4' M 1:20

26,5 cm

2.5 % Terrasse C1-0-038 FB: Plattenbelag Bd.Nr.: xx 5,76 m2

WA1-B/C-1´

2.5 %

RD 527,675

Verlängerung Wandscheibe bzw. als niedrige Aufkantung?

Decke TGa im Gefälle 2,5 %

RD 527,625 RD 527,675

DET 11b

RD 527,25 60 cm 527,85

OK RD Tga Rampe

RD 527,255

71,5 cm Bewohnergarten

-0,695

+0,20 OK RB

527,89

1.00

0.50

9 Fahrradständer 18 Fahrradstellplätze

Entwässerungsrinne Anschluss HLS

-0,75

RD 527,20

MOK 527,95

Decke TGa im Gefälle 2,5 %

OK RD 527.08

0.10

OK RD 527.08

527.49

OK RD 527.31

1.30

527,34

Zugang Fahrradkeller DET ROH 171+172

01 0.16

527.15

+0,26 OK RB

0.16

0.30

527.53

0.80

OK erste Stufe

01c

RD 527,30

-0,325 RD 527,25 RD 527,625 527,95 -0,14=527,81m ü. NN 527,85

527.73

0.55 527.28

ca.0.17

0.46

ca.0.14

0.12

0.04 0.09

OK RD 527.625

Schnitt B/C 6-6´

+0,20

0.81

MOK 527.83

527.34

32,5 cm

+0,20

2,5%

527.85

ca.0.04

0.17

0.80

0.25 0.10

527.83

2.5 %

527.17

-0,94 OK RB

527.95

527.13

Zugang Fahrradkeller

RD 527,08 01b

0.30

Aufkantung Hochbau

MOK 527.95

528.15

527,33 WA1-B/C-6´

1.26

Keh

527.89

Decke TGa 5 %

528.25

Asphalt siehe Regeldetail DET 11

527,30

Fassadenstütze verschoben 527,33

1.00 MOK 527,83 01 527,73 69 cm

527,73

527,30

0.30

1.00

Pflanzung auf unterbauter Fläche Aufbau 60cm siehe Regeldetail Grenze Privatgärten

Entwässerungsrinne Anschluss HLS

Gefälle 2,5 %

3STG 13/34

2.0 %

24% STG

WA1-B/C-2

Anschluss Gehweg Bestand

RD 527,08

1.00

6,0%

Fahrradanlehnbügel Befestigung mit Flanschplatten gemäß statischer Erfordernis

0.80

0.39

-0,905

-0,885

527,34

1.00

527,53

Gefälle 2,5 %

DET 12b

RD 527,08

1.00 11.31

Schnitt B/C 5-5´

-0,68

527,27 527,30

RD 527,045

527,30

Schiebespur

Schnitt B/C 4-4´

527,27

2,2% Gefälle

4 Fahrradständer 8 Fahrradstellplätze

-0,905

+0,20 OK RB

Schnitt B/C 3-3´

-0,885

Schnitt B/C 1-1´

0.15

1.87

Leistungsgrenze Hochbau

3.0 %

1.00

Schnitt Haus B/C 6-6' M 1:20

Podest

-0,905

527,30

26 cm

527,34

1.00

Schnitt Haus B/C 2-2' M 1:20

1.80

0.50

527,49

527,26

3.5 % -1,92 UK Fund.

-0,72

25.5 cm TP OK RD Tga -0,905

AK TG

RD 527,045

01 Stützmauer Rampenwange

0.28

+2,30 UK WD unterseitige Deckendämmung (A1), Tektalan h= 15cm

527,26

25.5 cm 527,30

01c

RD 527,045

WA1-B/C-6

Vorschlag: Podest h=45cm ggf. mit 0,5 % Gefälle (Leistung Hochbau)

1.00

527,40

-0,855-0,905 -1,29

527,26

0.60

35.5 cm RD 527,245

527,19

-0,97 OK Fund.

04 1.00

6.0 %

1.00

-1,065

15.5 cm!

-1,225

+1,57 UK UZ +1,42 UK WD

Abdeckung von Architekten

-0,90 bis -0,63

1.07

0.15

2.55 %

+2,30 UK WD unterseitige Deckendämmung (A1), Tektalan h= 15cm

0.30

OK RD 527.045

OK RD 527.31

527,19

-1,01 OK Fund.

527,20

DET 12a

-1,00

OK RD 527.34

OK RD 527.20

527,16

527,17

-1,96

0.70

1.00

5% STG

527.86 0.13 ca.0.20

0.32 ca.0.20

0.27

0.30

0.16

0.150.08

527.94

527.89

0.13

01b

527.34

15% STG 15% STG

0.80 527.30

2.55 %

DET 12a

Schrammbord Schrammbord und Schlüsselschalter ergänzt

527.73 0.49

0.08

0.03

527.89

MOK 527.83

Asphalt siehe Regeldetail DET 12a

0.55

Entwässerungsrinne Anschluss HLS

527.17

0.10

Grundstücksgrenze

Schnitt Haus B/C 5-5' M 1:20 Entwässerungsrinne Anschluss HLS

Asphalt siehe Regeldetail DET 12a

NE0455 5 RSLA FR Projekt

0.05

Gezeichnet MOK 527.95

Entwässerungsrinne Anschluss HLS

Asphalt siehe Regeldetail DET 12a

02a

Kiesdrainagepackung

01a

527.91

1.5 %

527.85

527.49

Projektnr.

ca.0.40

OK RD 527.25

DATUM

Bauherr Architekten Statik Planer HLS Planer ELT Bauvorhaben

Bauteil

Bereich

Inhalt

Datum

02V

Nummer

Maßstab

Index

1:20

UG 5 1 ABZ VOR 25.03.20 vom UNTERSCHRIFT

Edinburghplatz/ Flughafen-Riem-Straße/ Londonstraße

Schnitt Haus B/C 3-3' M 1:20

Bauherr Blockstufen 12.26x31x488cm 12.26x34x488cm 15.64x34x488cm

527.85

0.13

2.3%

0455-C

0455-F 0.13 ca.0.14

0.13

0455-B

0.13

N 0455-E

0455-D

OK RD 527.31

Londonstraße

0.30

0.08 0.20 0.13

Bemessungsgrundwasserstand gem. Bodengrundachten: 525,30 m ü. NN (inkl. 0,8m Sicherheitszuschlag)

0.50

OK RD 527.045

527.91

0.13

ca.0.20

527.73

1.5 %

ca.0.20 0.10

0.85 0.85 527.34

0.04

1.9 %

31 31

Edinburghplatz

0455-A

Treppenstufen 13/31

MOK 527.83 0.90 0.85

Fuge Asphalt

Asphalt siehe Regeldetail DET12

Übersichtslageplan (o.M.)

WA 1 ± 0.00 = +527,95m ü. NN

Asphalt siehe Regeldetail DET12

Entwässerungsrinne Anschluss durch HLS

0.85

Anschluss Gehweg Bestand

Entwässerungsrinne Anschluss durch HLS

Gewofag Wohnen GmbH vertr. durch Gewofag Projektgesellschaft mbH Kirchseeoner Str. 3 81669 München fon: 089-4123-0

3cm Bettung Fundament Tragschicht

Landschaftsarchitekten

0.50

RAINER SCHMIDT · LANDSCHAFTSARCHITEKTEN GMBH Reichenberger Str. 113 a, 10999 Berlin

Page 44

Baufeld

NE 0455-0001; R4WA1

FREIGABE

OK RD 527.31

OK RD 527.045

527.17

WA1 BC SCH ALL 1-6

Gewerk

Geprüft

527.53

2.0 %

527.40 6.0 % 527.13

Verfasser

6.0 %

Flughafen-Riem-Str.

0.90 0.85

Anschluss Gehweg Bestand

0.82

Anschluss Gehweg Bestand

527,13

527,12 -0,915

Schlüsselschalter TG

Asphalt siehe Regeldetail DET 12b

WA1-B/C-1

0.80

Rinne +1,87 UK UZ +1,72 UK WD

Winkelstützelement Betonfertigteil h=55cm

WA1-B/C-3

527,10

-0,85

Fahrradanlehnbügel Befestigung mit Flanschplatten gemäß statischer Erfordernis

WA1-B/C-4

Aufsicht Haus B/C M 1:50

Schnitt Haus B/C 1-1' M 1:20

WA1-B/C-5

Technical Drawings

Von-der-Tann-Str. 7 80539 München Telefon (089) 20 25 35 0 Telefax (089) 20 25 35 30 Reichenbergerstr. 113a 10999 Berlin Telefon (030) 78 90 78 0 Telefax (030) 78 90 78 90 Friedrichstraße 17 06406 Bernburg Telefon (03471) 346 19 0 Telefax (03471) 62 81 79

MUNCHEN RIEM, GERMANY

Reference projects LEGENDE

Baum Bestand Fällung

Baum Planung

Baumbestand

Terrassen - Betonplatten, anthrazit

Eingänge - Betonplatten, anthrazit Betonpflaster - changierend Splitt Traufstreifen anthrazit

Stabgitterzaun Anthrazit Stab

gitte

Rasen

Zaun Bestand

rzau

n An

thra

zit

Bodendecker / Staudenpflanzung

Heckenpflanzung

Pflanzflächen im Bereich Feuerwehrzufahrt mit ZTV Vegtra-Mü o.ä. tragfähiges Bodenmaterial

extensive Dachbegrünung

2.5 %

Maueraufkantung Feuerwehrabstellfläche

2.0 %

Stabgitterza

Feuerwehrzufahrt (Rasenwaben anthrazit)

un Anthr

azit

Grundstücksgrenze

Stabgitterzaun Anthrazit

2.8

2.0 %

TG Kante analog zur Gebäudekante

Öffentliches Land

0.5 % 2.0 %

2.0 %

TG-Zufahrt gen einschl. Rampenwan (Leistung Hochbau)

2.0 %

Entwässerungsgefälle

Gehwegüberfahrt

Bestandshöhe

5.5%

extensive Dachbegrünung auf dem Dach der Tiefgarage-Zufahrt

Planungshöhe

Schnitt AA´

±0,00 = +44,15 üNN 2.0 %

Sichtschutzelemente

2.0 %

2,00

1,65

2.0 %

1,25

2,15

2.0 %

Schnitt BB´ 0.5 %

2.0 %

1.0 %

2.0 %

Schnitt BB

4,70

0,60

2.5 %

2.0 %

0,60

0.05%

Zaun Bestand

2.0 %

4.5 %

Grundstücksnummerierung laut Bezirksamt Pankow, Stand 21.2.2014 Benjamin-Vogelsdorff-Straße 7, 9 Dusekestraße 29,31,33,35,37

2.5 %

1,60

1,62

Aussenanlagenbeleuchtung (Pollerleuchten)

1.5 %

2.5 %

2.0 %

0.9 %

Schnitt AA

Bestandsbaum

2.0 %

Müllbereitstellungsfläche gem. Anforderungen der BSR

0,60

2.0 %

2.0 % 2.5 %

2.0 %

Stahl- bzw. Pflasterbänder als Rasterform 0,80

2.5 %

BAUHERRIN UND GRUNDSTÜCKSEIGENTÜMERIN

2.0 %

Baywobau Bauträger AG vertreten durch Baywobau Baubetreuung GmbH Niederlassung Berlin Methfesselstrasse 42 10965 Berlin

2.0

0.5 %

2.0 %

% 2.0

2.5 %

2.5

2.0 %

2.5 %

2.0 %

PLANFERTIGER 2.0 %

Rainer Schmidt Landschaftsarchitekten GmbH Reichenberger Str. 113a 10999 Berlin 2.5 %

2.0 % 0.05 %

2.0 %

29 2.0 %

TG Kante

2.0 %

TG Kante analog zur Gebäudekante

1.5 %

2.5 %

2.0 %

TG-Zufahrt C

HAUS 2

HAUS 3

HAUS 1

TG Kante 0.7 %

±0,00 = OKFF EG =44.15 üNN

Betonkantenstein an der Grundstücksgrenze

4.8 %

Gehweg Bestand

Rasenflächen innerhalb Feuerwehrbewegungsflächen mit Rasenwaben bzw. Rasenpflaster

Gehweg Bestand x

0.12%

GEZEICHNET

GEGENSTAND

1 : 100

GENEHMIGT WEB ARCHIV

FR_LP_100_0 ERSATZ F./ERSETZT D.

BAUVORHABEN

GEPRÜFT

MASSSTAB: PLAN-NUMMER

AUSFÜHRUNGSPLANUNG LAGEPLAN

DATUM ZEI. DATUM ZEI. DATUM ZEI. DATUM ZEI.

ÄNDERUNGEN

Gehwegüberfahrt

Rückbau Bestandszaun

Grundstücksgrenze

1.5 %

2.0 %

566 36 EW B - Dusekestraße 37 GEZEICHNET

GEPRÜFT

GENEHMIGT WEB ARCHIV

DATUM ZEI. DATUM ZEI. DATUM ZEI. DATUM ZEI.

DUSEKESTRASSE, BERLIN, GERMANY

17.03.15

RAINER SCHMIDT · LANDSCHAFTSARCHITEKTEN GMBH Reichenberger Str. 113 a, 10999 Berlin

Page 45

Theoretical Approach

ISSUE: Urban Regeneration Policies dealing with Soviet Housing

Estates

TITLE: POST-SOVIET URBAN PLANNING REGIME IN LITHUANIA:

COMPARATIVE ANALYSIS WITH THE GERMAN PLANNING SYSTEM

PROBLEMS: Soviet residential quarters donâ&#x20AC;&#x2122;t reflect the current

trends of living, are inefficient and unsustainable structures suffering from social and physical degradation.

URBAN REGENERATION OF SOVIET QUARTERS:

Leipzig applied integrated urban planning model with the innovative renewal programs successfully dealing with the post-soviet urban problems. In Lithuania renovations are based on improvement of energy efficiency without the complex quarter management strategy. It shows a narrow perception of renovation without a proper approach to social problems.

QUESTION: What are the main factors determining successful urban renovation?

Page 46

Master Thesis ANALYSIS: SUCCESS AND FAILURES IN LAZDYNAI REDEVELOPMENT STRATEGIES

02 COMPARISON: Planning tools and strategies on Soviet Urban structures Redevelopment in Germany and Lithuania on National, Regional, Municipal and Local Levels. Leipzig redevelopment success of Grunau quarter vs. problems and unresponsive renovation processes in Vilnius presented in Lazdynai RESULTS:

The research identified problems of Lithuanian urban renewal strategy and limitations in the policies. Considering the best practice examples from Leipzig and Europe the recommendations for Lithuanian urban renewal strategy are summarized into 6 categories of urban redevelopment sucesss factors.

Page 47

Historical Layers of Modern square

Analytical Approach

SUSTAINED ELEMENTS

INTERPRETATED ELEMENTS

Page 48

IMPLEMENTED ELEMENTS

Senses of Landscape

ek Page 49

Thank You!

M.Ing Evelina Knyzelyte ewelina.knyzelyte@gmail.com mobile: +370 636 32936