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Petroleum Engineering Dissertation Topics That Are Eye Catching

Date published July 31 2020 by Barbara Neil

petroleum-engineering-dissertation-topics

Can a single document be enough to decide the fate of your degree? In case of dissertations it is. A dissertation is usually the last academic assignment submitted by student on whose basis students are granted degrees. And the only thing that decides the fate of a dissertation is its topic. If the dissertation topic is compelling enough to make the readers pick up the dissertations then there is a high chance that the dissertation is going to be a winning one. Therefore, it is utmost important to pay maximum attention and effort while finalizing dissertation topic.

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List of Petroleum Engineering Dissertation Topics

To make sure that everyone of you make the best first impression and ace your dissertations, our market specialist professional writers have compiled a free list of some of the best custom petroleum engineering dissertation topics and petroleum engineering dissertation ideas that you can find online.

Aims:

The aim of this research study is to assess the performance of high deliverability horizontal gas wells controlling the aspects of water cresting in tertiary sands. The study also addressed the high deliverability horizontal gas wells. Furthermore, identifying and evaluating the unique processes that enhance water cresting and water production in the tertiary sands. In addition to it, this research also aims to approach the length optimisation for horizontal gas wells.

Objectives:

  • To measure the performance of high deliverability horizontal gas wells in the context of US horizontal wells case study.
  • To evaluate the control of water cresting in tertiary sands within the context of US horizontal wells case study.
  • To determine the factors that control the horizontal gas wells value and suggest techniques to optimize and evaluate completion strategy.
  • To evaluate the performance of high deliverability horizontal gas wells for different conditions with and without water control.

Aims:

Generally, the aim of this study is to increase the revenue from the oil industry on a routine basis. In order to keep this study focused, the author limited the whole attention to clear objective functions for example increasing weighted rates of daily flow. The author in this study focused that the designing of the petroleum production systems is for a limited time frame. The rate of flow and designing operations, once examined, are presumed to stay constant during that specified time-period. Though, this research aims to focus optimizing processes can be applied frequently for long-run recovery researches of hydrocarbon.

Objectives

  • To identify the effective models to initiate with the petroleum production system.
  • To compare the current designing techniques with the conventional ones.
  • To assess the performance of parallel and sequential DWD (Dantzig–Wolfe Decomposition) strategies.
  • To provide recommendation in improving the structure of existing petroleum production systems.

Aims:

The research aims to give a comprehensive evaluation of the impacts of reservoir properties and production schemes on the final production and recovery trends related to gas condensate reservoirs that run on under water drive mechanism. The purpose of this research is to give a reservoir engineers and geologists with a strategy and technique for optimising the considerable development, fastens the bottom water recovery and prolong the field production life.

Objectives

  • To find out what factors maximizes the prolong field life and reduce water production in the gas reservoir.
  • To evaluate the impact of aquafer size in the recovery of gas condensate reservoir.
  • To identify the drivers that impact the field production life and gas recovery.
  • To provide the implications of the research findings in the policies of the petroleum sector.

Aims:
In the petroleum management and its respective study, it is deemed crucial to accord appropriate description related to the volume of the fluid that is present and is considered to be crucial in quantifying the available resources, including the selection of appropriate production techniques, rates, along with overall management of the reservoir. Therefore, the main aim of the research is to conduct a thorough analysis that concerns the reserve estimation of oil and gas in their initial stages by employing the volumetric method in the Canadian oil fields.

Objectives:

Following are the objectives of the research:

  • To identify the usefulness of the volumetric method in reserve estimation of oil and gas.

To evaluate the inherent deterrents that are present in the volumetric method in estimating oil and gas.

Aims:
Water based muds are considered to be the most comprehensively utilized drilling methods to serve the purpose of drilling muds. Therefore, it is the purpose of the research to comprehend the use of water based drilling and the impact of KCL inhibition that is levied on the rheological properties associated with shale contaminated water based mud by conducting contemporary computation analysis for demonstration purposes.

Objectives:

Following are the objectives of the research:

  • To critically evaluate the analysis for demonstrating the impact of KCL inhibition on the rheological properties of shale
  • To study the effects that is gathered from the KCL inhibition in the ecological context

Aims and Objectives:
The main aim of this study is to concentrate on the process of oil drilling and then finding out the challenges that are faced by various oil companies when they are collecting and then recovering oil from their various facilities. The study will first concentrate on doing research on the entire process of oil drilling. The study will first aim to understand and then explain the process in the study as that will also help in understanding the challenges that will be faced in the process and find out the challenges faced during the process in the main objective of the study. The study will concentrate not just on the simple oil extraction process but it will target particularly the process of extracting the oil from remote and far away locations. For this purpose, the study will concentrate on the challenges that can be faced by the various oil companies while extracting oil from the remote oil rigs. The study will explicitly target the oil rigs as their main source of information.

Aims and Objectives:
The main aim of the study would be to understand the concepts of zeta analysis function and will concentrate the study and analysis of this process. The study would also concentrate upon finding the ways in which the zeta analysis can be used in the oil reservoirs. The study will first look to conduct the research in finding the main concepts of what a zeta analyzer function really is what are its uses. The study will first concentrate on analyzing the zeta function and what are its uses. The study will then concentrate on finding out the uses of zeta analysis in the oil reservoir interactions and how it will be handled and then managed. Following are the main aims and objectives of the study.

  • What is zeta analysis function and what are its main elements?
  • What are the main places and domains in which the zeta analysis is used?
  • How will the zeta analysis will be used in the oil reservoir industry?
  • How will the rock/fluid interaction in the oil reservoir sector and also to assessing the usage process will be done using the zeta analysis?

Aims and Objectives:
The aim of the study is to conduct a comprehensive evaluation of the use of advanced power generation options in the offshore petroleum platforms and study and analyze the various power generation methods that are commonly used. The first main aim of the study is to first gather and carefully study all the major advanced methods that are used in offshore drilling for energy generation. The study call for their understanding and then evaluating how each of these methods would operate in the offshore drilling and what are their the main advantages of using these methods. The study will also aim to understand what a carbon sequestration plant is and what are its uses. The study will aim at first understanding the concepts and then understand what are the advantages of using these plants for energy generation. The study will then evaluate just what will be the advantage of using the carbon sequestration plants for generating energy in offshore petroleum platforms. The study will aim to carefully evaluate the integration of these plants from all the aspects to come to the conclusion if the integration will be good for the oil platforms or not.

Aims and Objectives:
The main aim of the study is to research and then identify carefully the process of drilling fluid.  The study will aim to first identify and then explain the process of fluid drilling and also what are the aspects and the advantages of such a process. The study will aim to understand what will be the potential side effects of using the local materials in the process of drilling fluid. The study will aim to comprehensively understand and then evaluate the changes that the said integration and use will cost to the process, will the changes be good or bad for the overall process. In the study one of the main goals of the study in finding out what will be the side effect of using gum Arabic in the process of fluid drilling. The study will first highlight the main elements of how the integration will take place and what will be the changes that will occur to the process as a result of its integration.

Aims and Objectives:
The main aim of the study is to conduct a comprehensive and a detailed comparative study between the two groups that have been identified for the study. Among the objectives the first aim would be to explain the first group of the study and that is to find out what hydrogenated styrene-Diene is and what kind of effect will its uses bring to the oils that are part of the group 1. The study will carefully understand how will the integration take place and then the study will seek to understand how well the integration of the hydrogenated Styrene-Diene affect the viscosity of the group 1 based oils. The study will then aim to understand the group 2 based oils and then the study will understand what will be the properties of the second oil group are and how will it help in preventing friction between the various machine parts. The study will then aim to systematically compare both groups to come to a proper conclusion on which method is better.

Aims and Objectives:
The aim of the current study is finding out about the use of the CO2 enriched water and its industrial uses. The study will aim to understand the use of CO2 enriched water in the oil enrichment process. The study will greatly evaluate the use of the said water as a means to recover the oil from reservoirs. The study will gather the data for the analysis from real life situations and companies. For the purpose of the implementation and careful and complete analysis to greatly understand what were the main effects of CO2 enriched water in the said company and how will it affect the overall process. The following are the main aims and objectives of this study.

  • What is CO2 enriched water and what are its properties and uses?
  • What are the uses of CO2 enriched water in the petroleum sector?
  • Will the use of CO2 enriched water be harmful or be helpful for the petroleum industry?

Aims and Objectives:
The main aim of the study is to understand and then explain what will be the use of oils in managing the water flooding operations. The study will greatly focus on the various concepts and the usage of the crude oil in the various operations. In regards to this the study will comprehensively compare the various operations and then compare it easily. The study will then aim to study the possibility of using water flooding mechanism and the use of crude oil in the process of water emulsion and how will it affect the overall process. The study will focus on its implementation in the reservoirs of the Kingdom of Saudi Arabia. the main aim of the study would be to find what will the possible outcome be of using crude oil in the water flooding mechanism of the reservoirs of Saudi Arabia.

Research Aims

The aim of the study is to examine the use of nano clays as additives for controlling filtration properties of oil and bentonite suspensions. The research is determined to provide an extensive research over the practices made with nano clays in order to control filtration properties of oil and bentonite suspensions. The study is conducted to analyze the use of nano clays along with examining the effectiveness of nano clays for controlling filtration. It further provides relevant studies for providing evidence and support to the literature.

Research Objectives

However, there are certain objectives formulated which are designed on the basis of the aims of the research. Though, the objectives of the research are as follows;

  • To understand the significance behind nano clays from theoretical perspectives.
  • To study nano clays practices as additives for controlling filtration properties of oil and bentonite suspensions.
  • To identify the impacts of using nano clays to control filtration properties of oil and bentonite suspensions.
  • To provide relevant recommendations for effectively using nano clays to control filtration properties of oil and bentonite suspensions.

Research Aims

            The aim of the research is to investigate the flow characteristics in an on shore horizontal separator with regards to the use of computational fluid dynamics. The study will determine significance of the computational fluid dynamics along with the effectiveness of the computational fluid on shore horizontal separator. Besides, it further elaborates its characteristics and rectify the factors underlying its impact on the computational fluid dynamics. Moreover, the research sheds light on the positive and negative impact of the computational fluid dynamics underlying its characteristics.

Research Objectives

            Although, there are various objectives illustrated that are crafted considering the aims of the study. Though, the objectives of the study are designed as follows;

  • To understand the concept of computational fluid dynamics from theoretical perspectives.
  • To examine the impact of using computational fluid dynamics on the flow characteristics in an on shore horizontal separator.
  • To rectify the underlying factors that affect the flow characteristics in an on shore horizontal separator.

To provide appropriate recommendations for effectively utilizing computational fluid dynamics in a shore horizontal separator.

Research Aims

The purpose of the study is to develop knowledge regarding the natural gas hydrates along with examining the formation and prevention/ mitigation in subsea pipelines. The study is likely to shed light on the factors that impacts upon the formation and mitigation in subsea pipelines. The study is determined to highlight the significance of the natural gas hydrates on the formation and prevention in subsea pipelines. It will further highlight the pros and cons of the formation and prevention in subsea pipelines.

Research Objectives

Though, the research objectives are designed keeping into consideration the aims of the research. Thus, the objectives of the study are as follows;

  • To understand the implications for using natural gas hydrates from theoretical perspective.
  • To examine the impact of using natural gas hydrates for the prevention in subsea pipelines.
  • To identify the potential factors influencing the formation of hydrates.
  • To provide relevant recommendations for effectively utilizing natural gas hydrates on the formation and prevention of subsea pipelines.

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    Petroleum Engineering Dissertation Ideas For The Grab, Hurry!!

    Petroleum engineering is a very vast field and a handful of petroleum engineering dissertation topics might not be enough for everyone. Many students would rather prefer dissertation ideas that they can use to formulate their own petroleum engineering dissertation topics. For this reason, our industry expert senior writers have also prepared a list of the best free petroleum engineering dissertation ideas that you can pursue to custom make petroleum engineering dissertation topics the suits you the best.

    Aims:
    It has been observed that in the contemporary era, there is a firmness that is accorded while proposing legislation that is pertaining towards Carbon emission for ecological purposes as well as satisfying the emission quality demands of the corporations. Therefore, ethanol, combined with gasoline is considered as a possible alternative as a fuel which is considered to be more efficient than carbon. Therefore, it is the main aim of the research to conduct a thorough study to evaluate the impact of ethanol-gasoline combination that is levied on the NOx emission in the SI engine to serve the purpose of enhancing the combustion efficiency as well as to satisfy the emission quality demands that were previously obtained from carbon respectively.

    Objectives:

    Following are the objectives of the research:

    • To identify the key factors that makes ethanol-gasoline combination as a probable alternative than carbon.
    • To evaluate the impact the ethanol-gasoline combination will have on the populace considering their ecological demands
    • To identify the key factors that makes ethanol-gasoline combination a viable candidate to cater the emission quality demands of the corporations.
    • To formulate recommendations for the ethanol-gasoline combination in order to replace carbon as a probable alternative as a fuel source.

    Aims and Objectives
    According to the study of Saxena et al., (2019), the petroleum industry is one of the largest industry helps in fulfilling energy demands. Flow assurance is the critical process which focuses on the entire engineering and production mechanism of hydrocarbon. From the reservoir to refining it provides a systematic approach for ensuring the fluid of hydrocarbons is transmitted economically. Though, wax deposition or paraffin formation is a major problem in the upstream petroleum industry which affects the flow assurance process by reducing the efficiency of transporting crude oil. In the subsea line, the temperature drops to very low which cause the wax deposit to become more acute due to the increase in the crystallisation.

    Therefore, addressing these issues of flow assurance has become critical in the petroleum industry. This study aims to understand the process of wax or paraffin formation along with its mitigation technologies to overcome the issue in the petroleum industry. Following are the objectives listed;

    • To identify the process of wax formation and deposition in the pipelines.
    • To study the fluid flow assurance in hydrocarbon production along with wax deposition.
    • To assess various mechanical, biochemical, technical and chemical and other innovative techniques to mitigate the problem in the petroleum industry.

    Aims and Objectives
    As per the study of Alfarge et al., (2017), the simulation of oil reservoirs refers to the process of utilizing theoretical or numerical model based on geographical and petrophysical properties of the hydrocarbon reservoir to predict fluid flow in the specified time. Generally, the process is broken into three different models i.e. geological model to analyse volumetric grid or given porous rock formation, flow model which describes the process of fluid flow, and well model which describes the fluid flow in and out of the reservoir. Moreover, the main purpose of the early simulation of oil is to optimise the development of new fields and helps in supporting investment and operational decisions in the production process.

    Although this simulation technique has been utilized by the engineers for a long time due to more complex and detailed reservoir features, computing technologies have been adopted for providing accurate simulations. Thus, all the processing, calculations and models take a lot of time in optimizing the development due to detailed analysis of the oil reservoirs. Therefore, this study aims to analyse various methods and technologies to reduce the optimisation time in the simulation of oil reservoirs. The objectives are listed below;

    • To identify the concept of the oil reservoir in petroleum engineering.
    • To describe various traditional models and method utilised in the simulation of oil reservoirs.
    • To identify new methods that improve the optimisation time in the simulation of oil reservoirs.

    Aims and Objectives
    Garzón and Hierro (2018) identified that by summer 2007, the global economic recession was predicted by various financial investors due to the deregulation in the finance industry mainly precipitated in the United States as the financial crisis 2007-2008 and quickly spread globally. This caused a severe decrease in the prime rate which enabled the bank to demand more mortgages loan to issue to millions of customers that were not even eligible for them. This economic recession then affected market economies due to the trade channel or in some cases a sudden downturn recorded in workers' remittance. In addition, this disruption of supply processes has substantially increased the oil price due to strong demand confronting signalling world production. Although, these prices fall in 2008 due to the United States economy. It has been observed that countries in recession has used less oil and cut their consumption up to 5% in 2008 which result in the rise and fall in the demand causing oil market crashing (MONADJEMI, 2017). However, this study aims to provide an in-depth analysis of factors that linked the world recession and oil market crashing by incorporating the case study of the 2008 global recession. The objectives are;

    • To provide an overview of the global oil market.
    • To assess the impact of the economic and financial crisis in the world recession based on the case study of the 2008 global recession.
    • To determine the factors associated with the economic and financial crisis which resulted in the oil market crashing during the 2008 global recession.

    Aims and Objectives
    As per the study of Sorkhabi (2020), the global oil market has faced a precipitous crash in 2020 which have emerged as a shock for the financers and investors to face energy and demand crisis in the start of the year. It has been observed that oil prices had fallen two thirds since the beginning of 2020 and are continuing to fall. Moreover, the decline observed has been predicted seven times bigger than the greatest decline in the 2007-2008 financial crisis. In the United States (US) a significant drop in the crude oil prices has been noted which is below $0 barrel, a record low in the history. One of the major reason for the disruption of oil demand is the current COVID-19 pandemic situation. Furthermore, this uncertainty of oil and gas demand seems to continue until financial conditions do not get stable. Therefore, this study aims to analyse the factors that influence and led to this server global market crash which has disrupted the oil and energy demand due to travel and other restrictions around the world. This study incorporates a case study of oil market crash of 2020. The objectives of this study are;

    • To analyse the situation of the global economic and financial market due to the current pandemic situation.
    • To identify and evaluate the factors that led to global oil and energy market crash based on the case study of oil market crash 2020.
    • To assess the impact and challenges in stabilising the oil market conditions of the current pandemic situation.

    Aims and Objectives
    According to the study of Kaminskaite et al., (2019), petrophysical process refers to the integration of physical and chemical rock properties and their interaction with fluids. These are mostly related to determining porosity, permeability and saturation of the rock. These petrophysical properties usually require intermediate property i.e. volume or shale to analyse the reservoir. Moreover, the unconventional reservoirs demand additional properties for an adequate description along with the described three major petrophysical properties as a key input for evaluation. The porosity property defines the ratio of the volume of space to the total volume of rocks. The saturation refers to the per cent or fraction that defined the pore volume of the occupied. Whereas, permeability focuses on measuring the flowing capacity of the fluid in the rocks. Different techniques are used to classify reservoirs based on the hydrocarbon accumulation by utilising the main properties.  However, this study aims to evaluate petrophysical properties by integrating novel imaging techniques for the desired outcome. The objectives are;

    • To identify the concept of petrophysical properties in the rock formation.
    • To understand novel imaging techniques for fluid study.
    • To critically evaluate the petrophysical properties using novel imaging techniques

    Aims and Objectives
    Parlar et al., (2016) elaborated that sand control techniques are used in the petroleum industry for improving the production process by minimising extensive production of sand in the formation that further minimise the facility downtime resulting from equipment failure. In addition, excessive production of formation sand is alarming and dangerous as it negatively tends to affect oil and gas companies. Moreover, horizontal wells are high angle wells which possess the property of enhancing reservoir performance, and access incremental reserves that could not be successfully implemented using vertical wells. The extended-reach horizontal wells have limited choices for reducing soft formation damage which includes slotted liners, wire-wrapped or pre-packed screens.

    Thus, sand control in horizontal wells is initially dealt by using stand-alone slotted liners, and proprietary screens which run to prevent hole-collapse and excessive sand production. Therefore, this study focuses to identify better alternative related to sand control techniques to minimise sand production in horizontal wells by integrating the case study of oil wells in the United Kingdom. The objectives are;

    • To identify the significance of sand control techniques for enhancing reservoir performance.
    • To critically evaluate different sand production techniques for horizontal wells based on the UK oil wells.
    • To assess the impact of sand production and control techniques in enhancing oil reservoirs’ recovery in the UK oil wells.

    Aims and Objectives
    As per the study of Zuo et al., (2019), one of the major flow assurance issues is the asphaltene deposition and plugging of pipelines in the process of producing and transporting oil. In addition, other traditional methods are used to improve the oil quality such that blending crude oil with short paraffin where additional paraffin that causes precipitation of asphaltene by filtering or sedimenting process. Thus these processes are considered slow and inefficient in reducing the content of asphaltene in oil. Generally, it has been identified that 50% of reduction in asphaltene helps in decreasing the oil viscosity to 30%. Though, Fakher (2019) evaluated that due to asphaltene possess behave as net charged molecules, therefore, electro-deposition is considered a significant process for precipitating asphaltene in direct proportion to the charge, strength and results in motion. However, this study aims to further analyse the effect of molecular composition on the electro-deposition of asphaltene. The objectives are listed below;

    • To compare traditional methods and techniques for separating asphaltene in the flow assurance process.
    • To identify the importance of electro-decomposition method in minimising asphaltene deposition.
    • To assess the impact of molecular composition on electro-decomposition of asphaltene.

    Aims and Objectives
    Biank et al., (2019) identified that the introduction of advanced automotive systems plays a vital role in the emerging shift of the automotive sector to include cars based on electronic systems. The advanced cars and emerging technologies increased the demand for engineers specialising in signal processing, automatic control, hardware control and much more. The major reason underpinning is the rapid development of safety systems. As the vehicles are increasing on the road which has indirectly increased the demand for automotive safety. In addition, due to this emerging trend, tremendous progress has been observed in the reduction of accident statistics.

    Traditionally, the automotive systems worked by separating driving safety systems that help in preventing accidents and passive safety systems that protect human during an accident. In this modern era, computation tools and technologies have rapidly enhanced the processing of automotive safety systems by integrating advanced intelligence in the cars for the protection. However, this study aims to integrate computational verification methods for automotive safety systems for both the vehicle and driver based on the case study of freight.  The objectives are;

    • To identify the importance of safety systems in electrical cars.
    • To critically evaluate the use of various computational technologies and technologies in developing advanced automotive safety systems for the vehicle and driver.
    • To assess the impact of computational verification tools on automotive safety systems by including the case study of freight.

    Aims and Objectives
    As per the study of STYLIDIS (2019), perceived quality is one of the most successful factors for car manufacturers in today's world. From the engineers' perspectives, perceived quality is evaluated based on the certain functions used in the design of the products. In addition, automotive companies mainly focus on manufacturing cars that meet their consumers' expectations. This helps in creating the greatest advantage of achieving consumers' perception of the quality of the car. Many researchers have examined factors that influence consumer perception of the product. Proposed visual decomposition strategy for the vehicle images help the consumer to evaluate the product in a better way. Moreover, there are various methods and factors that help in enhancing the visual appearance of the car that attracts the buyer. These factors can be predicted through different methods based on the brand, model, appearance and much more related to the quality of the car. Therefore this study undertakes different methods and framework to predict the perceived quality of cars. The following objectives are;

    • To identify the concept of perceived quality in the automotive industry
    • To critically evaluate the factors related to achieving the perceived quality of cars.
    • To assess the framework and methods for predicting the perceived quality of cars in the automotive industry.

    Aims and Objectives
    Farag and Saleh (2019) defined that during past year improved sensor and hardware technologies along with different algorithms have contributed to the development of self-driving cars. Due to increased technology, many automotive companies have shifted towards the production of advance driver assistance system (ADAS) and self-driving vehicles. In addition to this, autonomous vehicles have produced a significant impact on closed areas i.e. harbours, mines and offloading sites which has helped in managing legal requirements due to a more controlled environment than urban areas. Furthermore, within these areas, truck drivers and trailer systems are commonly used to transport goods and materials. These systems are more complex due to interconnectedness between modules and are unstable while reversing. For this purpose, on motion planning and control is required to deal with the giant vehicles. However, this study aims to analyse different on motion planning and feedback control frameworks for truck and trailer systems by incorporating a case study on ADAS and self-driving vehicles. The objectives are;

    • To understand the significance of autonomous vehicles.
    • To identify the factors that contribute to the development of ADAS and self-driving vehicles.
    • To assess the efficiency of on-motion planning and control for truck and trailer systems based on the functionality of ADAS and self-driving vehicles.
    TYPE SUBJECT
    BS An exploratory study on novel ways of increasing yield of crude oil refinery. A case study of US oil refineries.

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    Generally, there are three types of research topics. The descriptive research topics which usually starts with “how”, “what”, “when” etc. The comparative research topics that analyse differences between two or more groups and lastly there are causal research topics, that are used to find causal relationship between two or more variables.

    The citation style depends upon many things for example the style that your supervisor prefers or wants, the style that your department follows for all of its publications, the style that is acceptable by your university, or it can even depend upon the journal you want to publish it on.

    Some novel approached you can use to find dissertation topics are that you can try to shed light on old issues but in new ways, you can look for loop holes in literature and you can even put your ideas to test to see whether they are pursuable or not.

    There are number of ways to make sure that your dissertation is pursuable or not, by doing a small scaled qualitative / quantitative analysis first to see if there are dead ends or not, you can do textual analysis, your can pursue semiotic analysis and you can even do secondary research.