Route optimization for solid waste collection: Trabzon (Turkey) case study

Type Journal Article - Global NEST Journal
Title Route optimization for solid waste collection: Trabzon (Turkey) case study
Author(s)
Volume 9
Issue 1
Publication (Day/Month/Year) 2007
Page numbers 6-11
URL http://journal.gnest.org/sites/default/files/Journal Papers/6-11_APAYDIN_388_9-1.pdf
Abstract
In a municipal solid waste management system, decreasing collection/hauling costs, which
consist of 85 % of total disposal expenditure, can be carried out by a route optimization. Thus,
a huge amount of economical benefits is getting furnished. If route optimization is performed
in solid waste collection/hauling process, due to reductions in “empty miles” negativity, total
expenditures will be decreased.
Trabzon City located in the northeast side of Turkey has about 185 thousand inhabitants
according to Census 2000. The city shares just about 1% of the Gross Domestic Income in
Turkey. In other words, that means that Trabzon City livings have moderate revenue.
The objectives of this study are to optimize for the route of collection/hauling in Trabzon City
by taking consideration of data about road net, demographics and solid waste production.
In order to analyse the solid waste collection/hauling process in the city, the processes were
recorded by a Sony DCR-TRV145E brand video camera. To use route optimization process,
data related in present spending, truck type and capacity, solid waste production, number of
inhabitants and Global Positioning System (GPS) receiver data for each route were collected
and all the data were analyzed with each other.
For 39 districts in the city, a shortest path model was used in order to optimize solid waste
collection/hauling processes, as minimum cost was aimed. The Route View ProTM software as
an optimization tool was used for that purpose. Geographic Information System (GIS)
elements such as numerical pathways, demographic distribution, container distribution and
solid waste production amount were integrated to the software. To give an idea, thematic
container layer has 777 container location points for the entire city.
After performing routes by the software, the optimized routes were compared with the present
routes. Success by the optimization process was around 4-59 % for distance and 14-65 % for
time. Consequently, a route optimization process on the street stationary container collection
system will contribute a benefit by 24 % in total cost.

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