Public Transportation on River Tagus
Patrick Ștefănescu
1
, Duarte Pedro de Sousa Tavares
2
, Marian Mocan
1
and Werner Ștefănescu
3
1
Faculty of Management in Production and Transportation, Politehnica University of Timișoara,
Str. Remus No.14, 300191, Timișoara, Romania
2
Alameda da Universidade - Cidade Universitária, Universidade de Lisboa, 1649 - 004 Lisboa, Portugal
3
Faculty of Mechanical Engineering, Politehnica University of Timișoara,
Bv. Mihai Viteazu No.1, 300222, Timișoara, Romania
Keywords: Boat Fleet, Transport Operator, Public Transportation, Management.
Abstract: Finding new ways for traveling at a high commercial speed, comfortable, safe, cheap and preserving as
much as possible the environment by using less fuel is the new challenge for the public transport operators
that run their business in the 21st century. One of the alternatives for the passengers that are using public
transportation vehicles is to travel using water buses or ferries. The paper presents the five public
transportation routes on water that connects Lisbon with the other cities nearby. It is presented the entire
boat fleet used by the local transport operator Transtejo and Soflusa. The article is focused on finding
solutions for a particularly transport route that is Barreiro-Terreiro do Paço. The problem consists of using
boats having a capacity of 600 passengers out of rush hour leading to half loaded boats. Using boats with a
capacity of 500 passengers out of rush hour will have a high impact for the transport operator, passengers
and environment as it will be showed in the paper. The paper is structured as follow: introduction, data
regarding routes and boat fleet, case study route Barreiro-Terreiro do Paço, fuel consumption simulation,
solutions for the problem, conclusions and further research, acknowledgment, reference list.
1 INTRODUCTION
In the 21st century, mobility, transportation costs,
time spent in vehicles and environment protection
became the most important things. Due to these facts
governments along with public transport operators
came with solutions to these problems by offering
citizens living in big cities a better mobility, with
lower costs, in a shorter time and avoiding as much
as possible the pollution of the environment. One of
the solutions for passengers that are using public
transportation vehicles is to travel using water buses
or ferries. “This mean of transportation can be seen
in many capitals and big cities around the world
such as: Amsterdam, Budapest, Lisbon, Paris,
Rotterdam, Venice and many others. In these cities
we can see many floating vehicles for public
transportation of passengers such as: water taxis,
water buses, amphibious, vaporettos, ships, ferries”
(Ștefănescu, 2012). This alternative is better than the
other means of transportation due to the fact that
there are no: traffic lights, traffic queues, many stops
and offers a high commercial speed compared to the
other public transportation vehicles such as buses,
trolleybuses, trams. It is safer with fewer accidents
than on land with the buses, taxis and other public
transportation vehicles. It is cheap for passengers, in
the price per fair are included many and heavy
luggage and sometimes even cars example using
ferries, it is cheap for the public transportation
operator also due to the large transportation capacity
of the ship and the operating cost is less than other
public transportation vehicles. This type of
transportation can be divided into two categories: for
passengers that want to travel from point A to point
B and for sightseeing such as “hop on hop of trips”
(Ștefănescu, 2012). This paper analyzes the situation
when passengers connect with other means of
transportation for reaching their desired destination
point. The paper is focused on river Tagus that
separates Lisbon from the other cities, route
Barreiro-Terreiro do Paço presents the actual
situation, provides solutions to efficiencies public
transportation on river Tagus by: reducing fuel
consumption, using smaller boats with lower
transportation capacity and increasing the frequency
of transportation by increasing the travel speed. The
goal is to obtain benefits for the passengers and
502
ÈŸtef
ˇ
anescu P., de Sousa Tavares D., Mocan M. and ÈŸtef
ˇ
anescu W..
Public Transportation on River Tagus.
DOI: 10.5220/0004626905020507
In Proceedings of the International Conference on Knowledge Discovery and Information Retrieval and the International Conference on Knowledge
Management and Information Sharing (KMIS-2013), pages 502-507
ISBN: 978-989-8565-75-4
Copyright
c
2013 SCITEPRESS (Science and Technology Publications, Lda.)
public transportation operator and at the same time
to protect the environment. The paper is structure
into 6 chapters as follow: short introduction, data
regarding routes and boat fleet used by the transport
operator, chapter 3 is a case study of route: Barreiro-
Terreiro do Paço, in chapter 4 is made a fuel
consumption simulation, chapter 5 offers solutions
for the problem and the last part presents
conclusions and further research along with the
acknowledgment and reference list.
2 ROUTES AND BOAT FLEET
It all began with the “founding of Transtejo in 1975
and later, with the creation of Soflusa in 1993”
(http://www.transtejo.pt/pt/quem_somos/missao.htm
l).“The operational fleet consists of 33 vessels of
which 20 are Catamarans, 4 ferries (monohulls and
catamarans) for passengers and vehicles and 9
conventional vessels” (http://www.transtejo.pt/pt/
quem_somos/frota_list.htm). Nowadays Transtejo
Soflusa is the public transport operator offering
services for commuters that want to cross river
Tagus. In Table 1 is presented the boat fleet and
main characteristics (ferries excluded) and crew
number.
Table 1: Fleet information.
Boat Model No.
Transport
Capacity
Service
Speed
Av. Cons. Crew
Cacilhense 6 480 ≈7 Knots 50 L/h 4
Martim Moniz 2 1000 ≈7 Knots 180 L/h 5
Marvila 1 293 ≈7 Knots 38 L/h 4
Algés 4 496 22 Knots 410 L/h 4
S. Juliao 4 496 22 Knots 540 L/h 4
Cesário Verde 2 292 22 Knots 320 L/h 4
Fantasia 1 146 22 Knots 110 L/h 4
Damiao
de Goes
9 600 22 Knots 600 L/h 4
According to Table 1 more than half of boats are
new boats, the declared service speed is 22 Knots for
the new boats and around 7 knots for old boats. The
highest fuel consumption is registered at the new
600 passengers’ boats that are used also to serve
route between route Barreiro and Terreiro do Paço.
In “Figure 1” (http://www.transtejo.pt) is
represented the medium fuel consumption per
passenger/km during 3 consecutive years for the
entire boat fleet.
Figure 1: Medium fuel consumption per passenger/km.
Fuel consumption decreased from 2008 to 2010
because the transport operator introduced new boats;
some routes were redesign and became shorter and
the schedule modified by operating the boats at a
lower service speed and increasing with an average
time of 5 min. the trip. So instead of staying 5 extra
minutes at the docs the boats are cruising at a lower
service speed of 24km/h instead of 30km/h
increasing the time trip by 5 extra minutes. One
example for this situation is route Barreiro - Terreiro
do Paço. In “Table 2” (http://transporlis.sapo.pt) are
presented the 5 routes operated by Transtejo Soflusa
and the CO
2
emissions, the price per fare and the
number of bicycles that can be carried on board the
ship.
Table 2: Route characteristics and facilities.
Route Dist. CO
2
Price Bike
Trafaria - Porto Brandão –
Belém
4,20 km 21g 1,15€ 15
Cacilhas - Cais do Sodré 2,21 km 114g 1,20€ 3
Seixal - Cais do Sodré 7,50 km 374g 2,30€ 3
Montijo - Cais do Sodré 15,00 km 751g 2,70€ 3
Barreiro - Terreiro do Paço 10 km 406g 2,30€ 2/5
The CO
2
emissions are determined by the length
of each route along with the model of the boat and
the cruising speed that influence the fuel
consumption. The price is calculated taking into
consideration the route length and number of
passengers that use it. This is why the price for one
ticket between Cacilhas and Cais do Sodré is 1.20€
with 0.05€ more than on route Trafaria - Porto
Brandão – Belém which is with 2km longer. Another
example is Montijo - Cais do Sodré that is twice as
long as Seixal - Cais do Sodré and the price for one
ticket is just with 0.40€ more. The facilities for
passengers that want to take their bicycles with them
depend on some safety regulations. It is not only the
time but also the space management and the ebb and
PublicTransportationonRiverTagus
503
flow of the river for the safety of the passengers.
“Figure 2” (Ricardo Ferreira MUBi, 2012)
represents the interface of ground public
transportation with the fluvial transportation. It
highlights the 5 routes and the facilities for
commuters that have to change the vehicle to arrive
at their destination. The figure shows that Lisbon has
a well design infrastructure and the transfer hubs are
very good equipped satisfying passengers’ needs in
terms of public transportation.
Figure 2: Fluvial transportation hubs.
3 CASE STUDY BARREIRO -
TERREIRO DO PAÇO ROUTE
We identify this route from Barreiro to Terreiro do
Paço with some issues that can be efficiencies
obtaining benefits for: passengers, transport operator
Transtejo Soflusa, municipality of Lisbon and
protect the environment. The main problem that we
discovered here is that the operator is using all the
time same model of boat with same capacity for
passengers not taking into consideration the capacity
demand on rush hour and out of rush hour. This
apparent small thing generates lots of problems for:
passengers, transport operator and environment.
Transtejo Soflusa prefers to use the big boats with a
capacity of 600 pass. in spite of the fact that out of
rush hour the demand is less than 200 pass.
Regarding fuel consumption: boats with capacity of
600 passengers consume 600L/h and boats with
capacity of 500 passasengers consume 410L/h. The
operating speed will be 30km/h instead of 24km/h
and the crew number will be the same 4 persons. In
table 2 on route Seixal - Cais do Sodré where the
500 passengers boats are operating, the CO
2
is lower
with 32g per each trip. The time schedule will
remain the same but the trip will be faster with 5min.
instead of 25min. that is now out of rush hour it will
be 20min. The difference of 5 min. will be spent by
each ship in the docs. Now the trip last 25min. due
to the fact that the boats are cruising at 24km/h
instead of 30km/h as normal to save fuel making the
trip longer for each passenger that uses this route out
of rush hour. The number of bicycles that can be
taken on board will increase by 1. The single small
inconvenient is that the operator has to switch the
boats three times per day when entering and exiting
the rush hour. In the next table are presented the
number of boats by route, time and some
characteristics.
Table 3: Model of boat for each route and time table.
Route Boat Model
Boat
Capacity
No. Of Boats
In Rush
Hour
No. Of
Boats Out
of Rush
Hour
Trafaria -
Porto
Brandão –
Belém
Cacilhas
Class - slow
boat
470 pass. 1 boat 1 boat
Cacilhas -
Cais do
Sodré
Cacilhas
Class - slow
boat
470 pass. 3 boats 2 boat
Seixal - Cais
do Sodré
Algés Class
São Julião
Class
Pedro Nunes
Class
All fast boats
500 pass.
500 pass.
300 pass.
2 boats 1 boat
Route Boat Model
Boat
Capacity
No. Of Boats
In Rush
Hour
No. Of
Boats Out
of Rush
Hour
Montijo -
Cais do
Sodré
Algés Class
São Julião
Class
Pedro Nunes
Class
All fast boats
500 pass.
500 pass.
300 pass.
2 boats 1 boat
Barreiro -
Terreiro do
Paço
Almeida
Garrett Class
- fast boat
600 pass.
7 boats in
the morning
6 boats in
the evening
2 boats
After 23h30
until 2am -
1
4 FUEL CONSUMPTION
SIMULATION
In this paragraph we will present a fuel consumption
simulation for the actual fleet (600 capacity boats)
and a fuel simulation for 500 capacity boats. All the
technical data is obtain from the transport operator
Transtejo Soflusa.
KMIS2013-InternationalConferenceonKnowledgeManagementandInformationSharing
504
Table 4: Technical data regarding 600 pass. boats.
Capacity 600pass.
Motor'sBore(m) 0,165
Numberofboats 9
Cons(L/h)1moto
RPM Km.h‐1 Knots 12V 16V
2000 62,20 33,59 421,4 561,8
1800 55,98 30,23 315,2 422
1200 37,32 20,15 93,6 131,3
Figure 3: Fuel consumption for 600 pass. boat.
Table 5: Technical data regarding 500 pass. boats.
Capacity 496pass.
Motor'sBore(m) 0,165
Numberofboats 4
RPM Km.h‐1 Knots Cons(L/h)1moto
1900 59,09 31,91 263,5
1725 53,65 28,97 198,2
1510 46,96 25,36 130,5
1195 37,17 20,07 67
600 18,66 10,08 11
As we can conclude from the two charts it is a
difference of fuel consumption of more than 150 L/h if
both boats are equipped with a 12V engine. A huge
difference of more than 340 L/h is recorded if we compare
a 600 capacity boat with a 16V engine with a 500 capacity
boat with a 12V engine. Using boats with a capacity of
500 passengers is not only saving gas but also makes the
trip shorter with 5 minutes giving the crew the possibility
to rest at the end of each trip.
Figure 4: Fuel consumption for 500 pass. boat.
5 SOLUTIONS
Our proposal to increase the efficiency of public
transportation on route Barreiro-Terreiro do Paço is
to change out of rush hour boats that are used now
with smaller boats with a capacity of 500
passengers. This modification will generate benefits
for: passengers, Transtejo Soflusa, municipality and
will protect the environment.
Passengers’ spent time on each trip out of rush
hour will decrees from 25min. to 20min. The total
number of bicycles allowed to be carried on board
will increase from 2 that are now to 3. Ticket price
will be lower out of rush hour due to the decreasing
of operating cost for the transport operator.
This switch between the two types of boats will
generate a better management of the boat fleet and
increase the income of the transport operator by
decreasing the operating costs. The crew will have 5
extra minutes for resting in the docs at the end of
each trip. Fuel consumption will decrees and will
avoid exploiting the boats engine below the
operating speed of 22Knots. Decreasing the ticket
price the transport operator can attract more
passengers.
Increasing the number of passengers that use the
boat service to cross river Tagus will lead to a
decongestion of the 2 main bridges that connect
Lisbon with the cities located on the other side of the
river. The area will be more quiet and cleaner by
reducing the traffic on the 2 bridges and the CO
2
level produced by road vehicles and bigger boats. A
PublicTransportationonRiverTagus
505
higher income for municipality will be generated by
increasing the number of passengers that use the on
water public transportation and decreasing the costs
with maintaining the road infrastructure of the 2
bridges.
Reducing the CO
2
level produce by the bigger
boats that are in use now and by the vehicles that are
using the bridges to cross the river Tagus will help
the environment. Reducing the noise and dust in that
area helps the birds to live there. In “Figure 5”
(http://www.transportes-xxi.net/forum/download/file
.php?id=109531&mode=view) is presented a boat
with a 600 passengers capacity and in “Figure 6”
(http://www.transportes-xxi.net/forum/download/file
.php?id=109531&mode=view) is a 500 passengers
capacity boat that are in service now.
Figure 5: Boat with a 600 passengers capacity.
Figure 6: Boat with a 500 passengers capacity.
6 CONCLUSIONS
Good management is when the stakeholders in our
case: municipality, transport operator and passengers
obtain the results that they predict without
destroying the environment. Municipality focuses on
a clean and green city with good connections
between city centre, suburban places and other
cities. Having a transport operator that makes his job
and bring income to the municipality budget is
another goal. The operator wants to attract new
passengers, to obtain profit, to have lower operating
costs with the fleet and the infrastructure and if it is
possible to obtain a monopoly of the area where it
operates. Passengers want to travel fast, safe,
comfortable, at a lower price and with less number
of transfers between routes. Also they need mobility
to take with them their bicycles and cars and easy
access to information panels and for purchasing
tickets. Traveling with one “contactless card and the
possibility to use it for other porpoises and recharge
it from ATM, internet or vending machines”
(Ștefănescu et al., 2012) is another goal for
passengers. Saving money, time and protect the
environment is possible by: using less papers tickets
due to the implementation of the “ticketing system”
(Ștefănescu, 2012), increasing the commercial
speed, using hybrid engines or electrical power
vehicles such as “amphibious that are used in
Budapest and Rotterdam” (http://riverride.com/ and
http://www.floatingdutchman.nl/en/about-the-bus/)
“and for ground transportation Phileas buses as in
Eindhoven” (http://www.apts-phileas.com/) reduces
the CO
2
emissions. It is faster and safer to travel by
boat but the infrastructure and the fleet are very
expensive and if there is no river that everything is
reduce to public transportation with ground and
underground vehicles. “Timișoara is one of the cities
that have the oportunity to develop a public
transportation on water but strugle with the
investment in infrastructure and fleet” (Ștefănescu,
2011) “In his book (Ghionea, 2010) says that there
should be a philological level for transfers from one
vehicle to another that should not be crossed. In his
example for citizens living in big cities the total
number of transfers during a trip should not exceed
one and for commuters should not be higher than
three”. The conclusion to this fact is that commuters
are more tolerant than citizens living in big cities
and for Lisbon passengers that use boats have to
change just once or twice due to the fact that the bots
terminal are connected in most of the cases with all
the public transportation vehicles such as: taxi,
buses, trams, metro, trains as showed in picture 2.
An interesting question raised in (Clayton, 1987)
paper is „if hovercraft can be the new solution for
high speed channel ferries” this topic will represent
the future work for this paper.
ACKNOWLEDGEMENTS
“This work was partially supported by the strategic
grant POSDRU 107/1.5/S/77265, inside POSDRU
Romania 2007-2013 co-financed by the European
Social Fund – Investing in People.”
KMIS2013-InternationalConferenceonKnowledgeManagementandInformationSharing
506
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