Asphalt Pavement Temperature Profile For Tropical Climate in Indonesia
30/06/2020 Views : 353
I Made Agus Ariawan
Asphalt pavement temperature, its value varies is
influenced by several factors such as air temperature, solar radiation, wind
speed, and reflectance of the asphalt pavement surface. Variations
in air temperature directly affect the asphalt pavement temperature variations
and this is very important to know in connection with determining the use of
asphalt performance classes and the resulting structural capacity.
Indonesia is located at a relatively small
latitude (60 LU - 110 LS) crossed by the equator so that
it has a tropical climate and receives heat from high intensity sunlight.
Indonesia's territory is traversed by two monsoon wind movements
(west monsoon and east monsoon) experiencing two seasons, namely the rainy
season in the October-March period and the dry season of the April-September
period. On the other hand, around 70% of the territory is
in the form of water, so it has a sea climate with often cloudy air, high
humidity and rainfall. With these climate
characteristics, it is important to know the asphalt pavement temperature
profile.
1. The method of
measuring temperature and humidity and asphalt pavement temperature in the
field is carried out with a thermocouples equipped with a data logger. In
general, the equipment can be described as follows.
2.
Sensor and signal conditioning using
DS18B20 type, is a type of digital temperature sensor with a resolution of 9 to
12 Bit, ± 0.5 0C. This sensor has a data communication system with a
1 wire BUS line.
3.
Signal processing, using the ATMega 8
microcontroller which functions as a signal processor, and controlling data
communication between sensors with a computer.
4.
Interfacing, functions as an interface between the
microcontroller and the computer, in a serial data format.
5.
Display, functions to display the measurement
data. using a computer monitor, through a custom-made application program.
6.
Data recorder, functions to record
measurement data. In this case it was created through an application program,
which was built based on a visual basic programming language.
Observation
stations are installed on 4 (four) national roads in the Province of Bali to
monitor air temperatures, humidity and pavement temperatures at various depths.
Monitoring is carried out in the dry season, sunny weather and
in periods of maximum air temperatures. Measurements were
taken every day for seven days with a recording time interval of every 30
minutes. Asphalt pavement temperature measurement
position is on the surface (0 mm), a depth of 20 mm, ie in the middle of the
thickness of the surface layer (asphalt concrete wearing course - AC-WC) and at
a depth of 65 mm, ie in the middle of the intermediate layer (asphalt concrete
binder course - AC-BC). Local air
temperature is measured at an altitude of 1 to 2 meters above the asphalt
pavement surface.
The air
temperature starts to increase at 6:00 AM and the increase varies with a
maximum value of 36.28 0C at 2:00 PM, after which the pattern
decreases with a minimum value of 24.92 0C at 5:00 AM. In contrast to air humidity, it increased from 5:00 PM to a maximum
value of 83.69% at 06:00 AM, after which the pattern of air humidity decreased
to reach a minimum value of 50.31% at 2:00 PM.
For all
asphalt pavement temperature values, the pattern is relatively the same.
There was a process of increasing and decreasing the temperature
in a relatively similar time scale. Along with the
increase in air temperature an increase in asphalt pavement temperature, where
the maximum temperature occurs at 2:00 PM (T. amb = 36.28 0C, T. 0
mm = 45.65 0C, T.20 mm = 43.59 0C and
T. 65 mm = 38.54 0C). Looking at the data
above, the thing to note is that the asphalt pavement temperature has a higher
value than the air temperature. In the heating process,
the surface response of asphalt pavement (00 mm) is faster than the pavement
layer below so that the temperature is higher. Conversely
in the process of cooling the response is also faster so that in this phase the
surface temperature of the pavement (00 mm) is lower than the pavement layer
below it.