Health Safety Construction — This report is as an advisory document to surveyors. It provides a critical appraisal of legal, economical and ethical issues relating to health and safety, considering the role of organisations and individual employees in complying with current legislation, and specifying limitations imposed on the conduct of the property professional. Introduction Health and safety is an area of concern which every surveyor and property professional must address. The costs of failing to do so may be felt by the professional in question, or may be borne by the property organisation or their clients.
Students also choose up to six Civil Engineering CE courses from a list of specialist options as detailed below. MSc students also complete a research dissertation. For more information on courses, please contact the Programme Leader.
Theory and Practice Semester 1 mandatory This course aims to provide the student with an understanding of the concepts and practices of construction project management used to provide value added services to clients.
Subjects covered in the course syllabus include: Value and Risk Management Semester 1 mandatory The course aims to introduce the concepts of value and risk management, apply them to strategic and tactical problems and illustrate their tools and techniques through case studies. Subjects included in the course syllabus include: VRM and the construction procurement process; introduction to Dissertation on construction health and safety management; value engineering function analysis and other VE tools ; risk and uncertainty in the construction industry; Risk and procurement of PPP projects; risk management framework; sources, events and effects of project risk; tools and techniques of risk management; risk response and mitigation; client briefing.
Construction Financial Management Semester 2 mandatory The aim of the course is to enable students to appreciate and make an intelligent contribution towards the managerial and financial aspects of construction companies in general and construction projects in particular.
This includes developing awareness and understanding of the need for financial planning and monitoring and the cost control process. The following subjects are covered within the course syllabus: The course is designed to raise student awareness as to why the construction industry under-performs when compared to other industries.
This enables learners to appraise and critically analyse the performance of the project management discipline in order to explore what is needed to improve this performance, with emphasis on the UK construction industry. The following units are included in the course syllabus: The construction industry; the manufacturing industry; lean construction and process mapping; lean planning; performance measurement and benchmarking; project management evaluation; power, politics and influence; supply chain management.
It also aims to provide a comprehensive description of the mechanics underlying the response of reinforced concrete structural forms when subjected to different loading conditions based on the available test data and describe the different modes of failure exhibited.
The course also introduces students to the methodology adopted for the design of RC structures under seismic and dynamic actions, and the methods available for enhancing the performance of existing reinforced concrete members.
Ground Engineering Semester 1 optional The overall aim of this course is to provide the students with detailed knowledge and understanding in ground engineering for geotechnical engineers, extending the knowledge gained in undergraduate geotechnical courses to allow the learners to apply theoretical design and analysis to practical problems.
Subjects covered in this course include: Structural Dynamics and Earthquake Engineering Semester 1 optional This course aims to provide students with an understanding of the nature of seismic forces and the response of structures subjected to such loading, as well as to provide learners with an introduction to earthquake-resistant design and the seismic assessment of structures.
Structural Materials Semester 1 optional The course aims to provide students with an appreciation of traditional and new cement-based materials, their applications in construction, and the recognition of the importance of durability.
It also aims to provide an understanding of the core principles in designing a structure using a novel material where the design specification is not available and thus requiring the students to work using fundamental methodologies.
The course also aims to provide students with an integrated knowledge about the key engineering properties of structural concrete and relevant design specifications. More specific topics covered in the course include: Environmental Hydrology and Water Resources Semester 1 optional This course aims to achieve a thorough understanding of the hydrological basis of water resources assessment, planning and management.
Topics covered in the course include: Advanced Design of Steel and Steel-Concrete Composite Structures Semester 2 optional This course aims to introduce the learner to the advanced analysis and design of steel and steel-concrete composite structures, to allow the learner to model the structural behaviour of steel and composite structures using commercial software.
Computational Modelling of Concrete and Steel Semester 2 optional This course aims to allow the learners to develop a deep understanding of the behaviour of structural concrete and steel under different loading conditions, and to introduce students to the available material models capable of describing the behaviour of structural concrete and steel under different loading conditions.
The course also aims to introduce students to the numerical strategies employed when carrying out nonlinear finite element analysis for predicting the structural response under different loading conditions, in order to enable students to develop numerical models representative of the actual structural configurations considered.
Subjects and topics covered include: Foundation Engineering Semester 2 optional The overall aim of this course is to provide the student with knowledge and understanding of the geotechnical design process, equipping learners with appropriate methods of analysis for settlement and bearing capacity calculations, as well as in examining appropriate national codes and Eurocodes and their implications in geotechnical design.
The syllabus includes the following topics: Introduction to foundation types e. Specific topics covered in the course syllabus include: Coastal Engineering Semester 2 optional This course aims to introduce the wider concepts involved in coastal engineering design, the theory of waves and the practical considerations related to design, environmental impacts and sustainability issues.
Topics covered in the course syllabus include: Urban Drainage and Water Supply Semester 2 optional This course introduces the learner to the broad theme of Urban Drainage and Water Supply, with the aim of providing understanding of the following topics: The course includes instruction on the use of Infoworks CS.
Water and Wastewater Treatment Semester 2 optional The aim of this course is to enable learners to understand the processes and technologies for water treatment including conventional and advanced wastewater treatment and the sizing of various treatment units.
The course also provides awareness for the learner of the importance of effective wastewater treatment for river pollution control. Introduction to water and wastewater characteristics; fresh water treatment e.
Water Supply System Analysis Semester 2 optional This course aims to provide students with an understanding of the analysis and design aspects of water distribution system.
The course is structured to enable students to design least-cost functioning water distribution systems.The Occupational Safety and Health Act. This 10 page paper follows the development of the Occupational Safety and Act, the legislative directive that determined the development of the Occupational Safety and Health Administration, which oversees protocols for workplace safety.
Sep 10, · Example health and safety dissertation topic 2: 'Hard hats for conkers' - Dispelling the myths of health and safety in schools. Challenging the issue of health and safety as presented in various examples of the popular press, this dissertation seeks to dispel the myths that surround health and safety in schools.
Occupational Health And Safety Impact in Construction The main aim of the research is to study the impact of occupational health and safety in construction industry. It will also aim at identifying the. Construction Health and safety dissertation watch.
Announcements I am thinking something along the lines of "The importance of Health and Safety in today’s construction Industry" as the topic. However it is the research question which i am struggling with at the moment.
but before you can get a dissertation topic, i would definately. Health and safety at construction sites deals with both physical and psychological well being of workers on construction sites and other persons whose health is likely to be adversely affected by construction activities.
Construction safety is a national and worldwide issue. This paper contributes in solving this problem by applying automated safety rule checking to Building Information Models (BIM).