Reliability & Resiliency
About Course
Method of Delivery: Mostly online and in class
Major Topics | Entry Level | Intermediate Proficiency | Advanced Expertise |
The Critical Environment | Overview of what constitutes a critical environment (e.g., data centers, healthcare facilities). Importance of maintaining specific conditions. | Detailed characteristics of different types of critical environments. Importance of specific environmental controls. | Advanced design and management of complex critical environments. Integration of emerging technologies. |
Industry Challenges | Common issues faced in critical environments. Basic understanding of the impact of these challenges. | In-depth discussion of industry-specific challenges. Strategies to address common issues. | Advanced strategies for addressing industry-specific and emerging challenges. Long-term sustainability considerations. |
Increasing Heat Densities | Basic concepts of heat generation in critical environments. Simple methods for managing heat. | Advanced methods for managing heat, including cooling technologies. Impact of increased heat densities on system performance. | Cutting-edge technologies for heat management. Strategies for future-proofing against increasing heat densities. |
The Grid | Basic understanding of electrical power requirements. Simple overview of power supply and backup systems. | Detailed understanding of power distribution and backup systems. Impact of grid reliability on critical environments. | Advanced power management and integration with renewable sources. Developing and managing complex power redundancy systems. |
Planning and Impact Assessment | Introduction to planning processes. Basic impact assessment concepts and their importance. | Detailed planning techniques and tools. Comprehensive impact assessment and risk management. | Advanced planning techniques, including scenario planning. Comprehensive impact assessments including long-term projections. |
Engineering Design | Fundamental principles of engineering design for critical environments. Basic layout considerations and materials. | Intermediate engineering design principles. Considerations for redundancy and efficiency. | Advanced engineering design methodologies. Innovations in design for efficiency, sustainability, and resilience. |
Project Management | Introduction to project management principles. Basic concepts of managing time, budget, and resources. | Intermediate project management techniques. Tools for managing larger and more complex projects. | Advanced project management methodologies and frameworks. Managing large-scale projects with complex requirements. |
Testing and Commissioning | Overview of testing and commissioning processes. Basic steps to ensure equipment functionality. | Detailed testing protocols and commissioning processes. Troubleshooting common issues. | Advanced testing techniques and commissioning strategies. Integration of new technologies and systems. |
Operations and Maintenance | Introduction to operations and maintenance tasks. Basic maintenance routines and monitoring. | Intermediate operations and maintenance strategies. Preventive and predictive maintenance techniques. | Advanced operations strategies and optimization techniques. Implementation of sophisticated monitoring and maintenance systems. |
Course Content
Data Center Health & Safety: Reliability & Resiliency
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4.1 THE CRITICAL ENVIRONMENT
00:00 -
INDUSTRY CHALLENGES
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INCREASING HEAT DENSITIES
00:00 -
THE GRID
00:00 -
PLANNING AND IMPACT ASSESSMENT
00:00 -
ENGINEERING DESIGN
00:00 -
PROJECT MANAGEMENT
00:00 -
TESTING AND COMMISSIONING
00:00 -
OPERATIONS AND MAINTENANCE
00:00 -
Reliability & Resiliency Unit Test
00:00
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