Urban Engineering: Concepts and Challenges



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city injenering

3. Urban engineering
According to Martinard (1986), urban engineering can be described as "the art of conceiving,
undertaking, managing and coordinating the technical aspects of urban systems. The term
‘urban technical systems’ has two meanings: the first conveys the ‘physical’ dimension of an
infrastructural ‘support’ network, while the second can be construed as a supporting
‘services’ network". For example, while the water supply system of any city possesses a
‘physical’ dimension insofar as the actual physical distribution of water is concerned (pipes,
water capture machinery, treatment equipment etc), it is vital to take into consideration, in
addition, the number and quality of the services required to operate and maintain the
networks and their various equipments, to ensure appropriate billing, charging and cost
recovery mechanisms for the payment of services rendered and the need for water quality
control and supervision of the multifarious aspects of systems management.
It could be argued that the responsibility for the purely technical aspects of water supply
falls to civil engineers specializing in hydraulic and sanitation engineering - a speciality
widely recognized as one of the most traditional branches of engineering. However,
although this particular class of engineer is certainly qualified to deal with and resolve
problems in his chosen area of expertise (hydraulics and sanitation) it is difficult to attribute
to him the title of ‘urban engineer’.
A further example is that of the civil engineer specializing in transport engineering. This
branch of engineering involves dealing with land, maritime, river and air transport, as well


Methods and Techniques in Urban Engineering
6
as the infrastructure needed to keep abreast of developments in these specialist areas. It is
equally difficult to describe this transport specialist an ‘urban engineer’.
Both the above examples point to the need to identify a more precise definition of the ‘urban
technical systems’ mentioned by Martinard, given that there is no clear distinction made in
current day-to-day practice between specialist civil engineering fields and those specifically
associated with ‘urban engineering’.
A further definition of the term is provided by EIVP, the École des Ingénieurs de la Ville de
Paris (City of Paris Engineering School, http://www.eivp-paris.fr/), founded in 1959, which
runs an undergraduate course in urban engineering. For the EIPV urban engineering deals
with the ‘conception, construction and management of cities’, while simultaneously playing
close attention to the need for ‘sustainable development’.
In Anglo-Saxon countries, particularly in the United Kingdom, Canada and the United
States, the term “municipal engineering” has a similar meaning to "urban engineering".
Municipal engineering includes all the civil and environmental engineering services related
to the complex problems generated by infrastructural and environmental problems and land
use 
that 
confront 
municipal 
governments 
on 

daily 
basis 
(see
http://www.nlja.com/municipal.html). In our view, this more precise definition gives a
clearer idea of the practical scope of urban engineering and of the activities undertaken by
urban engineers.
Based on this definition, urban engineering can more properly be described as the branch of
engineering that covers all the civil and environmental engineering services related to the
range of complex problems associated with infrastructure, services, buildings,
environmental and land-use issues generally encountered in urban areas.

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