Certified Energy Management Professional (CEMP)
Earn Accrevia’s Certified Energy Management Professional (CEMP) certificate & prepare for external credentialing.
Current Price: Free
Discount: 100% off
What you will learn:
Understand climate, sustainability, and energy policies plus codes/standards (ASHRAE, IECC, ISO 50001) to guide compliant reporting and decision-making.Analyze energy units, procurement, tariffs, and rate structures to evaluate supply options, manage demand charges, and reduce point-of-use energy costs.
Apply energy audit approaches and instrumentation basics to measure energy and power, track KPIs, and identify energy management measures for facilities.
Evaluate energy accounting and project economics using time value of money, escalation, depreciation, and methods such as NPV, IRR, LCC, and payback analysis.
Understand electrical power systems, power factor, motors, and drives to improve efficiency, address power quality, and optimize motor applications for savings.
Design and assess lighting performance using photometric concepts, standards, retrofits, and controls to optimize visual comfort and energy efficiency results.
Analyze HVAC systems and building envelope fundamentals to estimate loads, use psychrometrics, and identify efficiency opportunities through design choices.
Implement building automation and controls concepts, including PID strategies, protocols, EIS, IoT, and AI, to monitor, optimize, and secure energy performance.
Design and evaluate thermal and electric energy storage strategies, including chilled water, ice, PCM, sizing, and operating approaches with clear limitations.
Analyze boiler and steam system performance using combustion efficiency, HHV/LHV, economizers, steam traps, condensate return, and heat recovery options.
Evaluate distributed generation and renewable energy systems, including CHP, solar, microgrids, and building-to-grid integration to improve resilient supply.
Optimize industrial energy systems by applying principles for pumps, compressed air, process steam, turbines, refrigeration, and waste heat recovery options.
Implement operations, maintenance, and commissioning practices to quantify losses, improve reliability, and sustain energy performance through verification.
Apply performance contracting and M&V fundamentals to structure ESPC/UESC projects, assess risk, calculate avoided cost, and verify savings with protocols.
