M.Sc. Fanny Lou Kunschert Portfolio by Lou Kunschert

m.sc. fanny lou kunschert I architecture PORTFOLIO

dria - international research programme

national university of singapore, singapore design and urbanism - dublin homeless or homes for less?

b.sc 6

die waldlodge - refuge in the woods

m.sc. 1

rooftop synergies - sonnenlauf

m.sc. 3

fast fashion slow architecture - mode huis antwerpen

master thesis

construction and experimental design - home for wally

m.sc. 3

Natural disasters and challenges due to climate change are ravaging the world. Therefore, building resilience has become a major element of sustainable urban development. The DRIA design competition of 2017 asked for innovative measures to strengthen the resilience in Semarang, Indonesia. The city is facing serious challenges due to rapid urbanization, pollution and the impacts of climate change, for instance environmental degradation, fooding, land subsidence as well as stress caused by urban density and social cohesion.

DRIA - INTERNATIONAL RESEARCH PROGRAMME 2017 contribution to designing resilience in asia 2017 I honorable mention

Reducing water pollution and health risk due to untreated wastewater, a natural wastewater treatment system is incorporated in the green belt park. Rather than installing a centralized conventional system for the whole area, RW-based wastewater treatment systems are planned for Bandarharjo. The wastewater is treated in a natural treatment system consisting of facultative wastewater ponds, constructed wetlands and maturation ponds. Thus, an e uent quality is achieved that even makes a water-reuse e.g. for aquaculture in sh ponds possible. This nature-oriented infrastructure picks up already existing and well-functioning social structures creating a better understanding and motivation of the local people for the system. As the inhabitants themselves can carry out the required measures, ownership is created guaranteeing a responsible handling of the installations in the future. Therefore, a resilient operation is achieved and the surrounding ecosystems are strengthened – the aquifer recovers.

sustain smokery

The primary objective of the SPROUD concept is to actively involve the local community. The green belt park is not

With several measures to improve the smokery the aim is to create a resilient typology. As an example the smoking chimney needs to get improved for reducing the air pollution. The implemented coconut forest and the shponds form the local supply for the smokery. A bio gas plant will supply electricity as well as installed adaptive solar panels on the roofs. The sh manure incurred by the smoking process will be utilized in bio gas. With the developed system the smokery can work self-su ciently aiming at a circular economy.

Rainwater catchment systems allow a reduction of groundwater exploitation and a responsible handling of the precious resource water. With a simple and cient system exemplary installed on the roofages of all new built facilities and the basic technical knowledge offered in community-based workshops local people are empowered to build their own rainwater catchment system for their homes. With this transparent and adaptive system a reduction of 50% of the total groundwater exploitation can be achieved. Furthermore, the stored water is an alternative source of service water needed by public sanitary facilities and after a simple charcoal ltering system for the drinking water access - especially in times of crisis. With the implementation of the wetland park a multifunctional recreational space is accomplished. In ood scenarios, it functions as a retention space to store excessive water.Together with the coconut forest this green retention space enables natural water in ltration consequently recharging the groundwater reservoir. The nature-oriented character of this intervention strengthens local ecosystems and thus creates biodiversity. Future generations will bene t from the longterm results of this green open area. Using and improving the existing water infrastructure in Bandarharjo guarantees future ood protection in case of water-born disasters. Due to the implementation of the RW-based wastewater treatment systems, the existing channels next to the streets are capable of draining the incurring water masses out of the existing development into the river. The existing channels and pumping stations are reactivated and enable progress with fewer interventions in the living space of the people.

only a perfect surrounding for a variety of sport activities but also serves as a space where collective and individual learning takes place. Hands-on workshop activities as well as information boards and observation points provide a unique learning experience. At the same time, jobs are provided within the interventions strengthening the local economy and reducing unemployment. strengthen participation Cultivating all the heritage buildings in the planning site is a central point of the SPROUD concept and strengthens the identity of Bandarharjo for future generations. With the conversion of the warehouse heritage site as an exemplary prevention the community is given the possibility to use the space accomplishing their actual needs. The main vision is to create a space for further education, thus empowering the people by creating access to knowledge. Integrated in the warehouse there will be a local market to connect local economy with the established education center. In case of emergency the facility will function as a connected evacuation shelter, which provides access to the basic needs, like water supply, electricity through solar power and emergency accomodation. preserve heritage puri cation ponds puri cation ponds rainwater storage wetland park local market education public plaza urban farming public bathroom material exchange recycling river strainer recycling upcycling recycling drinking water river in ltration puri cation pond ground water septic tank concept examine steakholders create a platform reward use recycling stations local enterprises emergency station belt emergency station RT

The integral waste management system is a focus intervention of the SPROUD concept. The idea of a “Bank Sampah” (trash bank) is an emerging concept in Indonesia: People can bring their waste to a Bank Sampah and receive money in return. Workers then separate the waste and the clean well-sorted waste is resold with a pro t to big recycling companies. Incurring waste is collected at household level, sorted at the facility and resold while the inhabitants do not pay or receive any money. This give-and-take relationship ensures a better understanding of the value of waste, reduces pollution on street level and makes a pro table operation of the Bank Sampah possible. Additionally, river strainers lter and sieve garbage out of the river that can then be recycled in the waste banks. This intervention generates jobs and ultimately turns garbage into items that have economic value. Inspired by the dynamics

mal settlements and the

of buildings in

chitectural design approach will cover various necessities. The proposal provides a modular building grid with e ective and exible infrastructure guaranteeing a hygienic comfort regardless of the building‘s speci c use. Via a connection of tong constructions and bracing access areas made of wood and clay it is possible for every brie y instructed inhabitant to reconstruct our architectural proposal. Every oor as well as the roo ng structure is constructed to allow the later addition of stories including a drainage system. The elevation of the building creates a bu er zone to cope with the impact of ash oods and land subsidence. Apart from providing temporary living space, the building shell can be economically transformed into an emergency hospital, shelter or orphanage in responsible use and obligation of occupied space. provide shelter As an integral part of the SPROUD concept, spaces are created where people can bring unused goods and in return receive di erent goods that other people brought and they might need. Incidental construction materials from a dismantled building, as an example, are conditioned and reused in a new construction project. In that way, depreciation is eliminated, production of future waste is reduced and natural resources are preserved. Furthermore, workshops are o ered showing how to build a bicycle from recycled garbage or how recycled materials can be used as construction materials for housing. The inhabitants of Bandarharjo bene t in particular, as they can design the concept according to their own ideas. In times of crisis the material exchange o ers independent supply to reconstruct houses and facilities based on a community exchange without the need of money. The exchange and reuse of materials is a basic principle of a circular economy. Rising awareness of a responsible handling of waste is indispensable –not only in Semarang or Asia but worldwide. Establishing maker’s spaces in Bandarharjo where people can discover the creative and artistic potential of recycling and upcycling shifts the people’s perception of waste: The experience how assumed nugatory plastic waste is turned into something new and useful marks the rst step in the direction of a circular economy. Not only could children be inspired but also for local universities a community plastic lab could become an opportunity for scienti c research in the eld of plastic recycling. Integrating creative handling of recycled goods into the people’s everyday life raises awareness and thus a healthy and clean environment is achieved. The implementation of simple regenerative energy systems secures a stable and independent energy supply for Bandarharjo. Using bio gas, compost and solar technology, the energetic potential of natural resources is in focus. In community-based workshops and at the stations on the belt, every individual can participate and learn about green small-scale energy systems. With the transition of food waste to bio gas and electric energy or the composting to nutrient-rich soil, the natural circle of materials is closed. The vision is to create a general understanding of the potential energy of waste, the power of the sun and how these resources can be used in a responsible way. bio gas TU Darmstadt , Germany Design and Urban Development Prof. Dr.-Ing. Annette Rudolph-Cle , Dipl.-Ing Simon Gehrmann, Dipl.-Ing. Frederik Helms, Dr.-Ing. Bjoern Hekmati Team B, SPROUD Anna So a Jeldres, Tessa Krämer, Fanny Lou Kunschert, Leonie Lube, Leonie Ott, Clara Poursedighi, Marlies Richter, Robin Thomä, Marius Wolf, Mathias Wolf shponds coconut farm rainwater catchment drinking water rainwater storage puri cation ponds local market urban farming public bathroom solar power bicycle workshop drinking water recycling river strainer gate recycling station waste deposit household debris take collaborative action prosper trade with local partners gain creditpoints recycling stations emergency station RW

of infor-

conversion

disaster cases our ar-

!"#$%&,.)&5$'6F#32,+#$'1$2"#$?@ABCD$ 3'03#%2$,($2'$)32,+#*5$,0+'*+#$2"#$*'3)*$ 3'../0,258$!"#$4&##0$6#*2$%)&H$,($0'2$ '0*5$)$%#&1#32$(/&&'/0-,04$1'&$)$+)&,#25$ '1$(%'&2$)32,+,2,#($6/2$)*('$(#&+#($)($ )$(%)3#$:"#&#$3'**#32,+#$)0-$,0-,+,-/)*$ *#)&0,04$2)H#($%*)3#8$K)0-(J$'0$:'&H("'%$ )32,+,2,#($)($:#**$)($,01'&.)2,'0$6')&-($ )0-$'6(#&+)2,'0$%',02($%&'+,-#$)0$ unique learning experience. At the ().#$2,.#=$F'6($)&#$%&'+,-#-$:,2",0$2"#$ ,02#&+#02,'0($(2&#042"#0,04$2"#$*'3)*$ #3'0'.5$)0-$&#-/3,04$/0#.%*'5.#028

G,2"$(#+#&)*$.#)(/&#($2'$,.%&'+#$ 2"#$(.'H#&5$2"#$),.$,($2'$3&#)2#$)$ resilient typology. As an example the (.'H,04$3",.0#5$0##-($2'$4#2$,.%&'+#-$ 1'&$&#-/3,04$2"#$),&$%'**/2,'08$!"#$ ,.%*#.#02#-$3'3'0/2$1'&#(2$)0-$2"#$$ fishponds form the local supply for 2"#$(.'H#&58$<$6,'$4)($%*)02$:,**$(/%%*5$ #*#32&,3,25$)($:#**$)($,0(2)**#-$)-)%2,+#$ solar panels on the roofs. The fish manure ,03/&&#-$65$2"#$(.'H,04$%&'3#(($:,**$6#$ /2,*,;#-$,0$6,'$4)(8$G,2"$2"#$-#+#*'%#-$ (5(2#.$2"#$(.'H#&5$3)0$:'&H$(#*1J$ sufficiently aiming at a circular economy.

>/*2,+)2,04$)**$2"#$"#&,2)4#$6/,*-,04($,0$ 2"#$%*)00,04$(,2#$,($)$3#02&)*$%',02$'1$ 2"#$?@ABCD$3'03#%2$)0-$(2&#042"#0($ 2"#$,-#02,25$'1$E)0-)&")&F'$1'&$1/2/&#$ 4#0#&)2,'0(8$G,2"$2"#$3'0+#&(,'0$'1$2"#$ warehouse heritage site as an exemplary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

!"#$%&'%'()*$%&'+,-#($)$.'-/*)&$ building grid with effective and flexible ,01&)(2&/32/&#$4/)&)02##,04$)$"54,#0,3$ 3'.1'&2$&#4)&-*#(($'1$2"#$6/,*-,047($ (%#3,13$/(#8$9,)$)$3'00#32,'0$'1$2'04$ 3'0(2&/32,'0($)0-$6&)3,04$)33#(($)&#)($ .)-#$'1$:''-$)0-$3*)5$,2$,($%'((,6*#$1'&$ #+#&5$6&,#15$,0(2&/32#-$,0")6,2)02$2'$ &#3'0(2&/32$'/&$)&3",2#32/&)*$%&'%'()*8$ Every foor as well as the roofing (2&/32/&#$,($3'0(2&/32#-$2'$)**':$2"#$ *)2#&$)--,2,'0$'1$(2'&,#($,03*/-,04$)$ -&),0)4#$(5(2#.8$!"#$#*#+)2,'0$'1$2"#$ 6/,*-,04$3&#)2#($)$6/11#&$;'0#$2'$3'%#$ with the impact of flash foods and *)0-$(/6(,-#03#8$<%)&2$1&'.$%&'+,-,04$ 2#.%'&)&5$*,+,04$(%)3#=$2"#$6/,*-,04$ ("#**$3)0$6#$#3'0'.,3)**5$2&)0(1'&.#-$ ,02'$)0$#.#&4#035$"'(%,2)*=$("#*2#&$ '&$'&%")0)4#$,0$&#(%'0(,6*#$/(#$ )0-$'6*,4)2,'0$'1$'33/%,#-$(%)3#8

G,2"$2"#$,.%*#.#02)2,'0$'1$2"#$:#2*)0-$ %)&H$)$./*2,1/032,'0)*$&#3&#)2,'0)*$(%)3#$ is accomplished. In flood scenarios, it 1/032,'0($)($)$&#2#02,'0$(%)3#$2'$(2'&#$ excessive water.Together with the 3'3'0/2$1'&#(2$2",($4&##0$&#2#02,'0$ space enables natural water infiltration 3'0(#M/#02*5$&#3")&4,04$2"#$4&'/0-:)2#&$ &#(#&+',&8$!"#$0)2/&#J'&,#02#-$3")&)32#&$ '1$2",($,02#&+#02,'0$(2&#042"#0($*'3)*$ #3'(5(2#.($)0-$2"/($3&#)2#($6,'-,+#&(,258$ Future generations will benefit from the *'04J$2#&.$&#(/*2($'1$2",($4&##0$'%#0$)&#)8

Using and improving the existing :)2#&$,01&)(2&/32/&#$,0$E)0-)&")&F'$ guarantees future ﬂood protection in 3)(#$'1$:)2#&J6'&0$-,()(2#&(8$D/#$2'$ 2"#$,.%*#.#02)2,'0$'1$2"#$AGJ6)(#-$ :)(2#J$:)2#&$2&#)2.#02$(5(2#.(=$2"#$ existing channels next to the streets are 3)%)6*#$'1$-&),0,04$2"#$,03/&&,04$:)2#&$ masses out of the existing development into the river. The existing channels and %/.%,04$(2)2,'0($)&#$&#)32,+)2#-$)0-$ #0)6*#$%&'4&#(($:,2"$1#:#&$,02#&+#02,'0($ ,0$2"#$*,+,04$(%)3#$'1$2"#$%#'%*#8

A),0:)2#&$3)23".#02$(5(2#.($)**':$)$ reduction of groundwater exploitation )0-$)$&#(%'0(,6*#$")0-*,04$'1$2"#$ %&#3,'/($&#('/&3#$:)2#&8$G,2"$)$(,.%*#$ and efﬁcient system exemplary installed '0$2"#$&''1)4#($'1$)**$0#:$6/,*2$1)3,*,2,#($ )0-$2"#$6)(,3$2#3"0,3)*$H0':*#-4#$ '11#&#-$,0$3'../0,25J6)(#-$:'&H("'%($ *'3)*$%#'%*#$)&#$#.%':#&#-$2'$6/,*-$ 2"#,&$':0$&),0:)2#&$3)23".#02$(5(2#.$ 1'&$2"#,&$"'.#(8$G,2"$2",($2&)0(%)&#02$ )0-$)-)%2,+#$(5(2#.$)$&#-/32,'0$'1$ 50% of the total groundwater exploita2,'0$3)0$6#$)3",#+#-8$N/&2"#&.'&#=$2"#$ (2'&#-$:)2#&$,($)0$)*2#&0)2,+#$('/&3#$'1$ (#&+,3#$:)2#&$0##-#-$65$%/6*,3$()0,2)&5$ 1)3,*,2,#($)0-$)12#&$)$(,.%*#$3")&3')*$$ ﬁltering system for the drinking water )33#(($J$#(%#3,)**5$,0$2,.#($'1$3&,(,(8

A#-/3,04$:)2#&$%'**/2,'0$)0-$"#)*2"$ &,(H$-/#$2'$/02&#)2#-$:)(2#:)2#&=$ )$0)2/&)*$:)(2#:)2#&$2&#)2.#02$ (5(2#.$,($,03'&%'&)2#-$,0$2"#$4&##0$ 6#*2$%)&H8$A)2"#&$2")0$,0(2)**,04$)$ 3#02&)*,;#-$3'0+#02,'0)*$(5(2#.$1'&$ 2"#$:"'*#$)&#)=$AGJ6)(#-$:)(2#:)2#&$ 2&#)2.#02$(5(2#.($)&#$%*)00#-$1'&$ E)0-)&")&F'8$!"#$:)(2#:)2#&$,($2&#)2#-$ ,0$)$0)2/&)*$2&#)2.#02$(5(2#.$3'0(,(2,04$ '1$1)3/*2)2,+#$:)(2#:)2#&$%'0-(=$ 3'0(2&/32#-$:#2*)0-($)0-$.)2/&)2,'0$ ponds. Thus, an efﬂuent quality is )3",#+#-$2")2$#+#0$.)H#($)$:)2#&J&#/(#$ e.g. for aquaculture in ﬁsh ponds possible. !",($0)2/&#J'&,#02#-$,01&)(2&/32/&#$ picks up already existing and well1/032,'0,04$('3,)*$(2&/32/&#($3&#)2,04$ )$6#22#&$/0-#&(2)0-,04$)0-$.'2,+)2,'0$ '1$2"#$*'3)*$%#'%*#$1'&$2"#$(5(2#.8$ !"#&#1'&#=$)$&#(,*,#02$'%#&)2,'0$,($ )3",#+#-$)0-$2"#$(/&&'/0-,04$#3'(5(2#.($ )&#$(2&#042"#0#-$L$2"#$)M/,1#&$&#3'+#&(8

In the light of the Global Financial Crisis in 2008, Ireland’s national economy collapsed. Ultimately the number of homeless people in Ireland is on the rise ever since, especially in the city of Dublin. Meanwhile, the underlying issue of affordable housing shortage remains pressing as the demand grows vis-à-vis Post-Brexit speculations. Therefore, we examine alternative housing models and develop strategy-based sustainable urban design solutions for the homeless in Dublin.

DESIGN AND URBANISM - DUBLIN, HOMELESS OR HOMES FOR LESS 2017 technical university darmstadt I thesis b.sc

STUDENT ATELIER ROOMS EVENT SPACE CONNECTING DWELLING UNIT SPACE, KITCHEN SPACE, CAFÉ COMMERCIAL SPACE, ATELIER STORE SHARED SPACE STREET

EXITENDING ADJOINING BUILDINGS II STUDENT HOUSING III MIXED HOUSING, GROUND FLOOR: COMMUNAL/COMMERCIAL IV PARK, SPORT FACILITIES V MALL, OFFICE BUILDING, UG. PARKING VI WORKSHOP FACILITY VII MUSEUM, ART GALLERY THE SHARED SPACE PUBLIC SPACES PLANNING AREA FUNCTIONAL AREA CAR AXIS USERS TYPE OF USE USERS TYPE OF USE USERS TYPE OF USE USERS TYPE OF USE EXTENSION OF PHOENIX PARK INTEGRATION OF NEIGHBORING STREETS RELOCATING OF O‘DEVANEY GARDENS CONNECTION THROUGH PATH- SHARED SPACE COMMERCIAL, STORES, STUDIOS WORKSHOP FACILITIES COMMERCIAL, RESTAURANT WORKSHOP FACILITIES ATELIER ROOMS 3 ROOM - FLAT 83 m 3 ROOM FLAT 70,5 m COMMUNAL, KITCHEN, LAUNDRY

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Our society is changing and the increasing differentiation of life situations in all areas of society requires the emergence of a wide range of models and projects, which completely re-design and combinations of different types of housing, forms of care and support services. Only a holistic approach in architecture can realize the manifold requirements of kindergartens/ nurseries or daycare facilities and integrate pioneering considerations practically.

This design task will face an extraordinary assignment: Planning a kindergarten with integrated day care services as a lively social space on top of a parking garage roof in the heart of Frankfurt‘s shopping mile.

ROOFTOP SYNERGIES - SONNENLAUF technical university darmstadt I m.sc. 3

The transparent design is particularly important for the concept of the fashion house; not only the facade, but also the production, processing and marketing processes. Every area is visible to visitors and employees through visual axes, galleries and ramp systems. Flexible, adaptable foor plans give the building additional openness. Together with the horizontally running clothes train and the catwalk, which connect all parts of the building, enables a completely new experience of the world of fashion. With the revival of the existing façade and the rearward shifted, transparent and insightful extension the fashion house integrates itself smoothly into the existing urban environment; but still represents a landmark.

FAST FASHION SLOW ARCHITECTURE - MODE HUIS ANTWERPEN 2020 technical university darmstadt I master thesis

OKRD 9,50m 14,65m 20,15m OKFF 23,30m 14,65m 20,15m 23,30m

with substance. Technical performance. Sustainability.“ „AEANCE as a brand that merges ready-to-wear with technical apparel“ „Their conceptual values are timeless minimalism, substance and understated luxury.“

„Style

Yacht producer Wally is in need of an appropriate Space for their model Wally Tango. The building Site is located on an old derelict pier in the harbour of Bilbao. Main goal of the building Task is to create a skin/shelter/shell/cover, which allows the boat to be viewed from all sides, and is capable of launching the boat in the water.

CONSTRUCTION AND EXPERIMENTAL DESIGN - HOME FOR WALLY 2019 technical university darmstadt I m.sc. 3

ANSICHT SÜDEN M 1:100 M 1:100

SCHNITT WEST-OST M 1:100 M 1:100

2 DURCHGESTECKTE, EINGESCHLITZTE BLECHE JE KNOTENPUNKT

DURCH PRESSBOLZEN ( Ø 2OMM) VERANKERT IN PRIMÄRBALKEN, 50CM

DURCH STAHLDÜBEL (Ø 7MM) VERANKERT IN SEKUNDÄRBALKEN, 30CM

3-TAFEL-PROJEKTION M 1:20

DETAIL FÜGUNG RAHMEN - FACHWERKANSCHLUSS OBEN WINKELVERBINDUNG MIT PASSBOLZEN DETAIL FUßPUNKT STAHLSTÜTZE - FUNDAMENT KÖCHERFUNDAMENT UND VERGUSSBETON DETAIL FÜGUNG RAHMEN - FACHWERKANSCHLUSS UNTEN EINGESCHLITZTES BLECH MIT STAHLDÜBELN KONSTRUKTIVE DETAILS M 1:10 ANSICHT SÜDEN M 1:100

F A N N Y L O U K U N S C H E R T

m a s t e r o f i n t e r n a t i o n a l c o o p e r a t i o n i n s u s t a i n a b l e e m e r g e n c y a r c h i t e c t u r e , u i c , b a r c e l o n a , s p a i n m a s t e r o f s c i e n c e i n a r c h i t e c t u r e , t e c h n i c a l u n i v e r s i t y o f d a r m s t a d t , g e r m a n y r a m b l a p r a t 1 0 8 0 1 2 b a r c e l o n a , s p a i n

+ 4 9 1 5 7 5 1 5 3 6 6 8 0 f l k u n s c h e r t @ g m a i l c o m

M.Sc. Fanny Lou Kunschert Portfolio

CONTENTS