X client is looking for a Projects/Contracts Manager to join their team in Cape Town. They are a construction industry and mainly serve various governmental sectors.
BSC[Hons] needed.
Have a minimum of 5-7 years post graduate experience in the capacity of Project/Contracts Manager within the construction industry.
Have the relevant tertiary education such as BSC (Hons)Construction Economics/Project/Construction Management/construction Technology/higher or similar certification.
Affiliated to either the ECSA, SACQSP or similar bodies(not compulsory but would be advantageous).
Hold and active SACPCMP registration or be registered as a candidate SACPCMP.
Have completed a minimum of 3 or 4 projects successfully in the position of Project/Contracts Manager.
Have sound knowledge of various types of contracts specifically aligned with JBCC, NEC and GCC contracts.
Have experience with MS project and or similar project management programs.
If you meet the above requirements and want to make a career-changing move:
Apply today by emailing your CV to [Email Address Removed].com
Visit our website: [URL Removed] You can also connect with Myself, Arista Palin - [Email Address Removed]
Desired Skills:
Projects Contracts Manager
Projects Contracts Manager
Projects Contracts Manager
Here's a detailed list of 100 lines about Construction Economics covering its definition, principles, factors, impacts, and related concepts:
Construction Economics is the study of economic factors that affect construction projects and the construction industry.
It focuses on how resources are allocated in construction to maximize efficiency and profitability.
Construction projects require significant financial investment and resource management.
Economic principles help in decision-making to ensure cost-effectiveness in construction.
The field combines economics with construction management and engineering.
Construction Economics analyzes costs, benefits, risks, and market demand related to building projects.
It helps forecast the financial viability of construction projects before they begin.
Cost estimation is a critical part of Construction Economics.
Construction costs include labor, materials, equipment, land acquisition, and overheads.
Labor costs are influenced by wage rates, productivity, and skill availability.
Material costs depend on supply chain factors, quality, and availability.
Equipment costs include purchase, leasing, operation, and maintenance expenses.
Land acquisition costs depend on location, zoning laws, and land value trends.
Overhead costs cover administrative expenses, permits, and insurance.
Time is money: project delays can significantly increase total costs.
Construction Economics studies the impact of inflation on project costs.
Inflation causes material and labor costs to rise over time.
Budget contingency funds are set aside to manage unexpected cost increases.
Financing methods impact construction project economics.
Interest rates influence borrowing costs for construction loans.
The construction market cycles through booms and busts, affecting demand.
Supply and demand dynamics determine prices for construction inputs.
Construction Economics evaluates the economic feasibility of new projects.
Cost-benefit analysis helps determine whether a project is financially viable.
Value engineering is used to optimize project value by balancing cost and function.
Construction Economics involves risk assessment and management.
Market research helps identify demand for new buildings or infrastructure.
Labor market conditions influence construction project staffing and wages.
Economic policy and government regulations affect construction costs.
Taxation policies impact the profitability of construction firms.
Construction materials’ prices are often affected by global commodity markets.
Sustainable construction practices can reduce long-term operational costs.
Economic incentives may encourage green building techniques.
Construction Economics studies how technological advancements impact costs.
Automation and prefabrication can lower labor costs and improve efficiency.
The scale of a construction project affects unit costs.
Larger projects often benefit from economies of scale.
Conversely, very large projects may experience diseconomies of scale.
Project location influences transportation and logistics costs.
Construction Economics examines the impact of exchange rates in international projects.
Exchange rate fluctuations can affect imported materials’ costs.
Inflation indexing may be used in long-term construction contracts.
Construction Economics also looks at the life cycle cost of a building.
Life cycle cost includes initial construction, operation, maintenance, and disposal costs.
Economic appraisal helps prioritize construction projects in public sector.
Public-private partnerships (PPP) combine public funding and private expertise.
Construction Economics assesses the viability of PPP projects.
Labor productivity improvements reduce overall project costs.
Training and development investments improve worker efficiency.
Economic downturns reduce construction activity and employment.
Construction Economics studies how infrastructure investment impacts broader economy.
Good infrastructure stimulates economic growth by improving productivity.
The multiplier effect means construction spending benefits other sectors.
Economic indicators like GDP growth correlate with construction activity.
Inflation rates impact construction contract pricing mechanisms.
Cost escalation clauses protect contractors from rising costs.
Tendering and bidding strategies are influenced by economic conditions.
Competitive bidding helps control project costs.
Construction Economics analyzes market competition among contractors.
Monopolistic or oligopolistic market structures can inflate prices.
Public procurement policies influence construction market dynamics.
The availability of credit affects construction companies’ cash flow.
Construction Economics also considers the role of insurance in risk management.
Delays and defects in construction can cause financial penalties.
Contract types (fixed-price, cost-plus, etc.) distribute economic risks differently.
Construction Economics studies how economic cycles impact material suppliers.
Globalization has increased competition and price volatility in construction inputs.
Economic downturns can lead to idle equipment and labor surplus.
Construction Economics helps optimize project scheduling for economic efficiency.
Investment appraisal techniques like Net Present Value (NPV) are used.
Internal Rate of Return (IRR) helps determine project profitability.
Break-even analysis identifies the minimum project scale for profit.
Cost control methods are essential to maintain budget discipline.
Economic evaluation helps governments decide on infrastructure priorities.
Construction Economics intersects with urban economics in city development.
Real estate market trends affect demand for commercial and residential construction.
Land economics studies land use and its impact on construction viability.
Construction Economics explores the impact of environmental regulations.
Compliance with safety regulations can increase upfront costs but reduce liabilities.
Economic benefits of construction include job creation and tax revenue generation.
Economic downturns can trigger government stimulus packages focused on construction.
Construction Economics studies the effect of demographic changes on housing demand.
Migration trends influence regional construction needs.
Interest rate fluctuations affect mortgage rates and housing market demand.
Construction Economics evaluates the impact of infrastructure on property values.
Economies of scope arise when companies diversify construction services.
Joint ventures in construction spread risks and share resources.
Construction economics includes analyzing subcontractor market conditions.
Supply chain disruptions can cause cost overruns and delays.
Construction Economics considers the role of innovation in cost reduction.
Digital tools like BIM improve cost estimation and project management.
Sustainable construction may require higher upfront costs but lower life cycle costs.
Construction Economics studies how labor unions influence wages and productivity.
Economic incentives may be used to attract skilled workers.
Public infrastructure investments often have long payback periods.
Private sector projects are more sensitive to short-term economic fluctuations.
Construction Economics examines how geopolitical events impact material costs.
Market transparency affects contractor competition and pricing.
Construction Economics uses data analytics to predict trends and risks.
Understanding Construction Economics is vital for successful project delivery and industry growth.
Here's a comprehensive list of 100 skills relevant to someone with a BSc (Hons) in Construction Economics, Project Management, Construction Management, Construction Technology, or a similar higher certification:
Construction Cost Estimation
Quantity Surveying
Project Scheduling (e.g., CPM, PERT)
Construction Contract Administration
Risk Management
Procurement Management
Budgeting and Financial Control
Value Engineering
Construction Law and Contracts
Site Management and Supervision
Building Information Modeling (BIM)
Sustainable Construction Practices
Quality Assurance and Quality Control (QA/QC)
Health and Safety Management
Resource Allocation and Management
Construction Technology Application
Structural Engineering Basics
Civil Engineering Fundamentals
Surveying and Site Layout
Material Science in Construction
Construction Equipment Management
Environmental Impact Assessment
Cost Control Techniques
Earned Value Management (EVM)
Project Lifecycle Management
Tendering and Bidding Processes
Claims Management and Dispute Resolution
Leadership and Team Management
Stakeholder Engagement
Change Management
Construction Planning Software (MS Project, Primavera)
Contract Law Interpretation
Supply Chain Management
Lean Construction Principles
Data Analysis and Reporting
Building Regulations and Codes Compliance
Construction Site Logistics
Site Safety Inspections
BIM Software (Revit, Navisworks)
Cost-Benefit Analysis
Infrastructure Development
Building Services Coordination
Construction Workflow Optimization
Risk Assessment Tools
Project Documentation and Reporting
Client Relationship Management
Urban Planning Concepts
Labor Productivity Analysis
Construction Equipment Operation Basics
Contract Negotiation Skills
Problem Solving
Critical Thinking
Decision Making
Strategic Planning
Financial Modelling
Market Research and Analysis
Feasibility Study Preparation
Forecasting and Trend Analysis
Root Cause Analysis
Conflict Resolution
Negotiation and Persuasion
Logical Reasoning
Time Management
Attention to Detail
Adaptability and Flexibility
Creativity and Innovation
Data Interpretation
Risk Quantification
Scenario Planning
Performance Metrics Evaluation
Effective Written Communication
Oral Presentation Skills
Technical Report Writing
Cross-Functional Team Collaboration
Multicultural Team Management
Client Negotiation
Conflict Mediation
Networking and Relationship Building
Training and Mentorship
Active Listening
Stakeholder Communication
Public Speaking
Meeting Facilitation
Influencing Skills
Customer Service Orientation
Microsoft Office Suite (Excel, Word, PowerPoint)
Primavera P6
Microsoft Project
AutoCAD
Revit
Navisworks
SAP ERP for Construction
Project Management Information Systems (PMIS)
Cost Management Software (CostX, Sage)
Geographic Information Systems (GIS)
Cloud Collaboration Tools (Procore, PlanGrid)
Scheduling and Reporting Dashboards
Database Management
Digital Procurement Platforms
Mobile Construction Technology (Field apps for inspections)