Sustainable growth model for Gao, Mali

UNIVERSITA’ IUAV DI VENEZIA

ATELIER DI SOSTENIBILITA’

Prof. Benno Albrecht - Prof. Giovanni Mucelli - Prof. Massimiliano Scarpa

GAO, MALI Matija Kovač - Jai Mexis

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A SUSTAINABLE GROWTH MODEL FOR THE CITY OF GAO UNIVERSITA’ IUAV DI VENEZIA

ATELIER DI SOSTENIBILITA’

Prof. Benno Albrecht - Prof. Giovanni Mucelli - Prof. Massimiliano Scarpa

GAO, MALI Matija Kovač - Jai Mexis

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A SUSTAINABLE GROWTH MODEL FOR THE CITY OF GAO The western countries have had a history of an insatiable “appetite” for raw materials and a rampant consumption of resources. Their economic approach towards the developing countries has been a highly unhealthy one, characterized by a lack of respect to the developing countries long-term sustainable growth, both in the political and the consequent socioeconomic terms. This is something that became immediately evident in our approach towards the African case study research. We identified it as the backbone of our approach, in which the developing countries ought to denounce the “ghosts” of an economy based on the plunder of their raw materials, short-term planning and a lack of true political vision. The new, envisioned states should be democratic, secular and overcoming the ethnic disputes. Their regional resources will be devoted to supporting a closed circle development, where the profits return to the producers and the overall production circle. Post-colonial Africa is the frontrunner of the highest rates of urbanization, especially the sub-Saharan region, we are involved with, is predicted to present some of the highest rates worldwide. This clearly highlights the desperate need to over-come its lack of a peripheral regional development strategy. By rejecting the neo-colonial resource “hungry” scopes of the newly develo4

ped countries, by embracing its diverse tribal identity and in combination with bold political will, a new symbiosis amongst production and human condition can occur. Africa’s ancient intimacy and familiarity with the land has to come back in the frontline of political decisionmaking. The dynamics of a rooted stabilized community have been of core importance to the preservation of African settlements and cities. This is where the role of contemporary design comes in, as it should produce a conceptual framework, able of predicting new long-term strategies, aiming for a balance between a dynamic control of the future city and enabling a natural mode of its evolution.

Gao

Timbuktu Bourem Kidal

International airport

Ansongo Tillaberi Niamey

Mopti Segou Bamako

Topological analysis of Gao locality 5

African existing situation

Gao, Mali

Points of interest from observation:

Points of interest from observation:

+ West Africa and Sahel countries among the most populated in Africa, migration towards urban centres

+ High population growth rates, imigrants increasing the amount of slums + Dominantly agriculture based economy with a small part of secondary and tertiary sector

+ Dominantly agriculture based economies + Land cultivation as a successful way of fighting desertification

Cities as cells of development Strategy: + Repetition of the strategy in similar spots with water resources to create an archipellago of successful cities as constructive parts of the green belt of Africa. Archipellago of sustainably developing urban areas.

+ Land cultivation using irrigation as a successful way of fighting desertification

Population growth

+ Ensuring a sustainable city growth by reducing the urban sprawl and establishing an accessible public infrastructure. Creating a masterplan.

Infrastructure

Strategy

+ Providing the basic means for the main economic activity that can lead to a development of other activities in urban areas. Building irrigation system.

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Green belt

+ Establishing an efficient agricultural zone embracing the city and protecting the land from desertification. Continious land cultivation.

Existing African situation

Population growth with a limit

Gao, Mali

Strategy

Analysis

Infrastructure

Green belt

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Sahel functioning as an archipelago of cellular urban areas cultivating the land and connecting as a green belt.

10.000.000 - 18.500.000 2.000.000 - 10.000.000 500.000 -2.000.000 50.000 - 500.000

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Strategy:

Development of a dense network of small size cities (population up to 100.000) for a smart sustainable growth in conditions providing a self-generating urban development without a need of much upside-down control. 9

Rainfall count in Mali

River networks of Mali

january

january

february

february

march

march

april

april

may

may

june

june

july

july

august

august

september

september

october

october

november

november

december

december

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10

20

30

40

50 째C

10

20

Average monthly temperatures (high and low)

Average precipitation

Gao - dry season

Gao - flooding season

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40

50

60

70

80

90

100m m

models of meandring frequency

definition of canal meander according to city morphology

Gao irrigation canal concept development

development of accumulation lakes

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Demonstration of water regime according to seasons September

November

February

April

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HYDROLOGY annual flow rates for Niger in Mali m3s-1 / month source: www.fao.org

5000 4000 3000 2000 1000 0

april

september

march

Climatic characteristics of Niger basin for two Malian cities / source: www.fao.org

Calculation of still water evaporation according to climate in Gao

T aoudenni

Aguelhok

Kidal

Tombouctou

/ source: FAO, Massimiliano Scarpa

Ras el Ma

(Timbuktu)

Goundam

Bourem Gourma Rharous

Gao Ansongo

at 27,7 C average high temperature in dry months, hourly water evaporation is around 20g/m2, meaning 0,5 cm/day of lake water level loss, that means 1,5 m lower lever in 10 dry months. o

Nioro du Sahel

Kayes

Nara Mourdiah

Nampala

Niono

Mopti

Tillaberi

Djenne

Bafoulabe

Koulikoro

Niamey

Segou

Bamako

Bougouni Yanfolila

Ouagadougou Sikasso

Rivers and connections in Mali

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Realisation of the water canal wih dams

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11 km

10.000.000 m3

3 dams

7.000.000 m3

1.97 km2

5m

long irrigation canal around the city

used as water reservoirs in dry season

of water surface when full

of irrigation water reserves after the rain season and

at the end of a dry season.

average water depth when full

3,5 m

of water after drought. 15

Demographic situation and predictions for Gao

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52.201

population in 1998

Resultats Provisoires RGPH 1998 (Région de Gao), République de Mali: Institut National de la Statistique

52.201

+ 4,7 %

annual population growth

86.633

population in 2009

Resultats Provisoires RGPH 2009 (Région de Gao), République de Mali: Institut National de la Statistique

86.633

+ 5 % - 10.000 IDP* 90.000

population in 2013 estimated value

annual population growth estimation *internally displaced population after 2013 military intervention Source: Internal displacement monitoring centre

90.000

115.000

population in 2018 estimated value

25.000

new inhabitants

+5%

annual population growth estimation

166 ha

of land for accomodating them (with a density 150 inhabitants/km2)

55 km2

of agricultural land for feeding them (0,22 ha/person / Source: 2011 GAP Report, Global Harvest)

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Schematic analysis of city’s growth speculation

300 m

400 m

300 m

400 m

250 ha

of land for new inhabitation could accomodate

300 m25.000400 m people - 60.000 in a radius of

400 m

from their cultivated land. 18

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0

Morphologic analysis of urban tissue

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50

100

200

0

50

100

Low density housing block

Medium density housing block

High density housing block

Public block

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Courtyard house

Gao housing typologies

+ Extention of Interior into courtyard + Privacy + Cross Ventilation + Shading

Single family house

+ Perimeter wall objectifies house + Privacy + In-efficiency in using block dimensions + Moderate street relationship

Row house

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Characteristics of islamic architecture

Organization

private

semi-private

public

indirect entrance

humble exterior

internal focus

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M 1:500 24

Building typology implant proposal

m

5c

263 cm

60 243

cm

Prefabricated corner wall system in dimensions of a container providing a basic sanitary and urbanistic standard. Simple tansport and setting on the ground with conncetion to public sanitary infrastructure. Could be provided as a public good or as a beginning capital for the new settlers.

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rainwater sanitary and reserve storage tank 8 m3 with filtration system

rainwater collection vertical

openings for the structural beams

B sewage / waste water system connected in a network

concrete prefabricated wall

drinking water input from a common pond

A

water split locker

electricity split locker

B

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Corner wall plans

A

M 1:50

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rainwater collection plug

openings for the structural beams 10x20 cm

concrete prefabricated wall

prefabricated poliethylene rainwater sanitary and reserve storage tanks 1,5 m3 with filtration system

electrical split locker

water splitter

sewage / waste water systemconnected in a network

drinking water input from a common pond

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Corner wall plans section A - A

M 1:50

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Corner wall plans section B - B

openings for the structural beams

rainwater collection vertical

verticals for second floor sanitary needs connection

prefabricated poliethylene rainwater sanitary and reserve storage tanks 1,5 m3 with filtration system

concrete prefabricated wall

water split locker

electricity split locker

openings for the secondary roof support

drinking water input from a common pond

sewage / waste water system connected in a network

M 1:50 30

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M 1:5 32

Axonometric speculation of a finished house

M 1:100 33

Housing agglomeration density and typology scenarios low density residential area with agricultural and industrial activity local population “hopespot� blocks with available basic infrastructure and low built surface density, allowing residents to use spare space for agricultural and other production activities in their own neighbourhood. Approx. 40 % of building footprint in form of one-storey housing and business (2.500 m2), 60% of open space for other activities (3.900 m2) 85 inhabitants (30 m2 per capita)

medium density residential area with a possibilty of self-sufficiency Blocks on the way of establishing urban character are not to populated to withdraw a possibility of local selfsufficiency primarily in in means of food production. Approx. 54 % of building footprint in formofoneor twostoreyhousingand business (cca 3.500 m2), 46% of open space for other activities (2.900 m2), 115 inhabitants (30 m2 per capita). 34

high density commercial and residential core The most valuable land for the private sector gathering around the public facilities and developing into a flourisihing residential area with strong trade and services business activity. Approx. 62 % of building footprint in form in multi-storey housing and business (4.000 - 6.000 m2), 38 % of open space for other activities (1.000 m2)135 inhabitants (30 m2per capita).

public implant Publically used areas as a central drive for local development. Providing the basic infrastructure for healthcare, education, trade, free time etc. as a cornerstone for successful and balanced growth of the city. We developed a design for a multiuse public market, utilising our corner wall system and adding a big tent-like roof.

public implant

210 people/ha

180 people/ha

130 people/ha 35

High density housing block

Medium density housing block

Low density housing block

Permutations of housing types based on the utility corner wall

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High density housing block

Medium density housing block

Low density housing block

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M 1:1000 40

M 1:5000 41

M 1:500 42

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45

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