Water Engineering Dissertation Topics

Research Aim

This exploratory research aims to explore the impact of the dynamics of water distribution systems on water pipe leakage in a high rise building. The purpose of selecting this subject area is that currently leakage is observed to occur in all water distribution systems. However, scholars have been investigating about certain types of systems that can significantly assist in improving water leakage. Other than this, this study has emphasized on this specific subject area as very few researchers have discussed about the effects of water distribution systems on leakage of water pipes.

Research Objectives

The aim of this study can be achieved by addressing secondary objectives which are enlisted as follows;

1. To determine and evaluate factors accountable for substantially increased leakage exponents.
2. To assess leakage methods that focus on quantifying the amount of water leaked from water distribution pipe in high rise building.
3. To explore about the leakage control models which can significantly contribute in controlling present and future leakage levels efficiently.
4. To analyze the impact of leakage on the sustainability of high rise buildings, the surrounding of such buildings, as well as, health and safety issues of population residing within those buildings.

Research Aim

This research is conducted to critically assess excessive urban flooding risks on traffic networks. However, this study focuses on digital twin technology to acquire crucially significant research outcomes. This subject area has been taken into consideration specifically because of the fact that the impacts of urban flooding are predicted to be increasing substantially. It is because of increased urbanization, growth of population and climate change. In addition to this, it has been observed that drainage systems in most of the urban areas are not sufficiently efficient to overcome increased volume of water gathered after rainfall. Thus, this study would thereby, emphasize on analyzing the role of digital technology in this respect.

Research Objectives

In order to achieve the goal of this study, secondary objectives have been proposed and enlisted as follows;

1. To identify the stimulation of flood events on the basis of different climate change scenarios.
2. To evaluate the effectiveness of hydrodynamic model, digital twin and traffic model in the planning and development of urban areas.
3. To assess the exposure and vulnerability, in the context of mobility disruption in the current transport development plan.

Research Aim

This study has been proposed to carry out the analysis of fostering robust pipe network design when setting up large manufacturing plant. This study significantly focuses on the cement manufacturing factories in the United Kingdom. In the recent era, it has been observed that robustness is one of the significant component which plays significant role to meet the demands of customers. Other than this, it has been found that very few scholars have focused on the use of robustness in the management of segment isolation, as well as, detection of pipe burst. Thus, the current study focuses on these aspects with reference to cement manufacturing factories in UK.

Research Objectives

Secondary research objectives have been proposed and enlisted below to meet the aim of this study.

1. To explore the aforementioned issues related to the designing of robust pipe network.
2. To assess the role of robust pipe network in the manufacturing of large plants.
3. To understand the current and future advantages and disadvantages of robust pipe network design in setting up large manufacturing plant.

Research Aim
The aim of this research is to conduct the exploratory study on the benefits of cooperation in transboundary river basins. Further, this research aims to investigate that how does it make the water resource system more efficient and benefits riparian stakeholders. Within the Water Convention, cooperation is considered as one of major obligations. States are implementing the convention and preparing for accession to the benefits of cooperation that can help in enhancing the environmental sustainability, improving the human well-being, accelerating economic growth, and increasing the political stability. Cooperation aids in producing the funds for the projects in transboundary basins. It is also one of the great way of endorsing the local population.

Research Objectives
The primary objective of this research is to achieve the research aim that is to conduct the exploratory study on the benefits of cooperation in transboundary river basins. Secondary objective of the research are as follows:

• To study the cooperation in transboundary river basins.
• To evaluate the benefits of cooperation in transboundary river basins.
• To investigate the benefit of the water resource system.
• To evaluate the ways through which the water resource system more efficient.
• To investigate the method through which the water resource system can provide benefit to the riparian stakeholders.

Research Aim
The aim of this research is to critically evaluate the flood and drought assessment in a human-dominated water cycle. Further, this research aims to investigate the anomalies introduced in the water cycle due to human domination when compared to the natural cycle. There is the great role played by the water cycles on the planet. The intervention of the human within the water cycle alters the dynamic role of the water. It is seen that human has produced some variance and anomalies within the water cycle. Therefore, it is very crucial to understand these glitches and compared it with the natural water cycle.
Research Objectives
The primary objective of this research is to achieve the research aim that is to critically evaluate the flood and drought assessment in a human dominated water cycle. Secondary objective of the research are as follows:

• To conduct the evaluation of the flood assessment within the human dominated water cycle.
• To conduct the evaluation of the drought assessment within the human dominated water cycle.
• To evaluate the anomalies introduced in the water cycle due to human domination.
• To evaluate the anomalies introduced in the water cycle due to natural cycle.

Research Aim
The aim of this research is to study the removal of toxic and poisonous metals from synthetic waste water of industrial factories in water recycling plants. The untreated wastewaters released from the factories causes an increase of toxic pollutants within the aquatic climate as well. It is not only harmful to the aquatic climate but also for the water recycling plant. Toxic and poisonous metals are considered as one of the most dangerous contaminants present in the water and even their low concentrations can be hazardous for the health. Therefore, it is very essential to remove the toxic and poisonous metals from synthetic waste water of industrial factories in water recycling plants.

Research Objectives
The primary objective of this research is to achieve the research aim that is to study the removal of toxic and poisonous metals from synthetic waste water of industrial factories in water recycling plants. The secondary objective of the research are as follows:

• To assess the risk of toxic and poisonous metals in to the water.
• To evaluate the ways through which the toxic and poisonous metals can be removed from the synthetic waste water of industrial factories.
• To understand the process of water recycling.
• To evaluate either it is safe to use the recycled water from the water recycling plants.

Research Aim
The aim of this research is to conduct the managerial study on the state estimation for monitoring structures during extreme loading and environmental conditions. Further, this research aims to evaluate Japan’s tsunamis of 2011. The environmental event can drastically damage the structure, therefore it is essential to assess and monitors the structures that are

subjected to these kinds of such events before and after the occurrence of potential damage.

Research Objectives
The primary objective of this research is to achieve the research aim that is to conduct the managerial study on the state estimation for monitoring structures during extreme loading and environmental conditions. The secondary objective of the research are as follows:

• To formulate the state estimation algorithms for imaging structures subjected to extreme loading present.
• To validate the algorithms by means of using experimental data from structural testing.
• To assess the 3D progression of damages.
• To gain an insight into the physical processes occurring within structures subject to extreme loading.
• To gain an insight into the damages occur due to Japan’s tsunamis of 2011.

Research Aim
The aim of this research is to study the use of computational fluid dynamics (CFD) applications for better management and effective development and upgradation of urban drainage. Computational Fluid Dynamics is considered as one of the hi-tech tools for the

Severe problems. Upgrading and developing urban drainage is one of the critical tasks, therefore it is essential to use high tech tools. CFD in this concern can help in yielding maximum benefits.

Research Objectives
The primary objective of this research is to achieve the research aim that is to study the use of computational fluid dynamics (CFD) applications for better management and effective development and upgradation of urban drainage. The secondary objective of the research are as follows:

• To evaluate how the computational fluid dynamic can be used for management of the urban drainage.
• To assess the ways through which computational fluid dynamic can develop and upgrade the urban drainage.
• To visualize the 3D flow patterns of the material within the urban drainage.

Research Aim
The aim of this research is to critically evaluate the flow patterns and pollutant retention in vegetated sustainable drainage system (SuDS) ponds. Sustainable urban drainage systems comprise great significance within the green infrastructure. It is essential to view the 3D flow patterns of the material within the sustainable drainage system ponds by using the computational fluid dynamic for better visualisation. Therefore, this research is conducted for efficiently evaluating the pollutant retention within the sustainable drainage ponds.

Research Objectives
The primary objective of this research is to achieve the research aim that is to critically evaluate the flow patterns and pollutant retention in vegetated sustainable drainage system (SuDS) ponds. Secondary objective of the research are as follows:

• To gain insight into the 3D flow patterns of the material within the sustainable drainage system ponds.
• To analyse the sustainable drainage system ponds.
• To develop the strong CFD-modelling method to integrate better design.
• To critically evaluate the pollutant retention in vegetated sustainable drainage system ponds.

Research Aim
The aim of this research is to conduct the study for formulating a structure for the enhancement of runoff detention in green roofs and storm water planters. There are various methods that helps in minimising flood risks and surface water run-off in an eco-friendly manner such as sustainable drainage system. Therefore, it is essential to conduct the research on constructing structure for the enhancement of runoff detention in green roofs and storm water planters.

Research Objectives
The primary objective of this research is to achieve the research aim that is to conduct the study for formulating a structure for the enhancement of runoff detention in green roofs and storm water planters. Secondary objective of the research are as follows:

• To construct a structure for the enhancement of runoff detention in green roofs.
• To construct a structure for the enhancement of runoff detention in storm water planters.
• To evaluate the benefits of the storm water planters.
• To evaluate the benefits of the green roofs.

Further, this research aims to study how effective is this technique in removing toxic and poisonous metals.
Research Objectives
The primary objective of this research is to achieve the research aim that is to conduct the study for optimization and characteristics of copper pickling wastewater treatment in a single reactor using bio electrode process. The secondary objective of the research are as follows:

• To gain complete insight into the copper pickling wastewater treatment.
• To understand the complete process of using bio electrode.
• To evaluate optimization and characteristics of copper pickling wastewater treatment in a single reactor using bio electrode process.
• To assess the effectiveness of the optimization and characteristics of copper pickling wastewater treatment in a single reactor using bio electrode process.
• To evaluate either the optimization and characteristics of copper pickling wastewater treatment in a single reactor using bio electrode process is useful in removing toxic and poisonous metals or not.

Aims
The aim of this study is that, to develop efficient model surrogates for water resources and subsurface containment management. The surrogate modelling is also said to be metamodeling which used from last few decades. This research reviews the efforts on the surrogates’ model for the water resources because EnviroForensic/Arcient provides a comprehensive array of the surface water services and groundwater. This study investigates the contamination extent in the subsurface and evaluates the potential impact on the water supplies. The temporally and spatially variables parameters have been used with sensitivity and uncertainty analysis.
Objectives
The objectives of this study are the following:

• To analyse the model surrogates for water resources.
• To analyse the model surrogates for subsurface containment management.
• To develop the novel efficient model surrogates for water resources and subsurface containment water management.
• To identify the water quality assessment and groundwater supply.
• To analyse the reservoir quality models.
• To observe the impact of the surrogate model for water resources and subsurface containment management.