Refine
Year of publication
- 2020 (5) (remove)
Document Type
- Master's Thesis (4)
- Diploma Thesis (1)
Institute
Language
- English (5) (remove)
Is part of the Bibliography
- no (5) (remove)
Vehicular emission is often the main source of air pollution. The chief pollutants react with air and secondary pollutants resulting in adverse effects to the environment. European commission has legislated laws in order to reduce the air pollution from vehicular emissions.
Traffic modelling has been used for many decades and particularly in the last decade, flow of traffic based on vehicle type has been used to estimate emission of polluting gases and particles. Passenger car and Heavy duty Emission Model (PHEM) is used along with microscopic traffic flow simulation software VISSIM (In German: Verkehr In Städten – SIMulationsmodell meaning "Traffic in cities - simulation model") for estimation of major two major pollutants of greenhouse gases (carbon dioxide, nitrogen oxides) and particulate matter emitted from passenger cars and heavy-duty vehicles, based on their technical performance characteristics in a traffic flow at a typical German motorway segment. With a country’s fixed fleet composition for a particular year, PHEM gives fuel consumption and emission as outputs using fuel types used (diesel or petrol) and based on the trajectories of the vehicles.
This study is planned to exploit the developments and investigate the validation of this software with HBEFA. Different 25 scenarios are created for a German motorway segment with varying traffic behaviours; and the emission results between two emission modelling software tools are compared.
The principal objective of this thesis is to execute a priority system for public transport buses at a signalized intersection. Based on the actual demand for buses, a dedicated bus lane is proposed to provide spatio-temporal priority. The optimal location was examined with the help of microscopic simulation software before bus lanes were introduced in the network. Bus priority lanes interrupted the existing traffic flow pattern and compelled straight-ahead vehicles to shift into adjacent lanes. Therefore, median turning lanes were added to improve the capacity of mainstreams. A fixed-time signal program with an additional transit priority phase was designed to accommodate peak-hour traffic flow. In order to achieve variabilities in the cycle length, a vehicle-actuated signal controller was implemented to operate the modeled intersection, which responds to the real-time traffic demand.
A simulation test was performed in VISSIM on both the actual and modeled intersection. Comprehensive result analysis in terms of travel time, vehicle delays, and queue lengths was made to determine the performance and saturation level of the selected intersection.
Railways is one of the most important ways of transporting people and goods from place to another in the whole world. In Germany, it comes as the second most used way of transport. The German railways network is so big and covers the whole maps of Germany. That is why it is so important to develop and improve the performance of it. At this thesis work, the performance of every route at the German railways is calculated using a digital model which is created in PTV Visum software using the programming language python. Furthermore, the workload of every node (junction) at the German Railways is calculated, and according to that, recommendations to build an overpass structure at the overloaded Junctions is suggested to improve the capacity of this Junctions.
The thesis analysis the car parks’ elements and the factors that influence the drivers’ behaviour on them. Then makes an approach to the definition of the strategy of how the car drivers search for free parking spaces. The reason for it is that there is a need to assess car parks’ design parameters in the terms of their performance. One of the decisive factors is also the drivers’ behaviour. A car park simulation based on the environment of matrices is designed and implemented in MATLAB. The algorithm for searching for the parking spaces is designed and implemented within that as well. The results of the simulation are presented.
The use of fossil resources must be phased out during the next decades in order to stay below a well below 2°C trajectory adopted with the Paris Agreement. The growing threat of climate changes arises large uncertainties concerning natural and social systems and induced changes on economic activities and human welfare in the 21st century. As recent climate negotiations failed to achieve significant progress to stop the climate change, GHG emissions fragmented the international communities. Total carbon dioxide (CO2) concentration is at the highest levels ever recorded. Since, it is very important to differentiate the total CO2 and its origin.
Evidently, CO2 has been identifed as the most important GHG because it contributes the largest share to the anthropogenic increase of radiative forcing and grows fastest. Anthropogenic sources of CO2 emissions are fossilfuel combustion (FFC), cement production, traditional biomass combustion and land use change, which contain chlorouorocarbons, hydrochlorouorocarbons and others. Where Biogenic CO2 emission sources are fermentation, biogas and other biological process. Compare to atropogenicsource with high purity.
The thesis provides an improved overview of R&D, pilot, demonstration and commercial projects that capture CO2 from biogas plants and other biogenic sources and subsequently put this carbon to further use. Best practices in terms of business models and GHG saving potentials are described. The CO2 emissions mitigation are related to the innovation, technologies, investment and moreover the strong policies from the Government