The 33rd China International Exhibition on Electric Power Equipment and Technology
Shanghai International Energy Storage Technology Application Expo / Hydrogen Energy Expo
Shanghai New International Expo Center (Hall N1 - N5, W4 - W5), PR China 2026 • 12 • 3 - 5
50 terms
Hong Kong-based trade show organiser and co-organiser of EP Shanghai, one of Asia's leading industrial exhibition companies.
The electrical power infrastructure — data centres, dedicated grid connections, and cooling systems — required to support the massive energy demands of AI training and inference workloads.
A large-scale rechargeable battery system that stores electrical energy and releases it on demand to balance supply and demand on the power grid.
A rigid metallic conductor that collects and distributes electrical power within a substation or switchboard, serving as a common connection point for multiple circuits.
The state in which greenhouse gas emissions are balanced by equivalent removals or offsets, resulting in net-zero carbon dioxide emissions.
The national industry association representing China's electric power sector and the principal sponsor of EP Shanghai.
An automatic switching device that interrupts fault currents to protect electrical circuits and equipment from damage.
Battery storage systems deployed at commercial and industrial facilities to reduce electricity costs through demand charge management and time-of-use optimisation.
A combined diesel engine and electrical generator that converts diesel fuel into electrical energy, widely used as backup power, prime power in off-grid locations, and peak shaving in industrial facilities.
Small-scale power generation, storage, and demand management assets connected to the distribution network, including rooftop solar, battery storage, EV chargers, and controllable loads.
Small to medium-scale energy storage systems deployed close to the point of consumption, providing local grid support, backup power, and demand management.
The application of sensing, communication, and control technologies to automate the monitoring, switching, and fault management of medium-voltage distribution networks, reducing outage duration and improving supply reliability.
A software platform that monitors, controls, and optimises the operation of electrical distribution networks in real time.
A software platform for real-time monitoring, control, and optimisation of electricity generation, transmission, and large-scale consumption.
Any system that captures energy for use at a later time, including battery, pumped hydro, compressed air, flywheel, and thermal storage technologies.
The network of charging stations, grid connections, and management systems that enable electric vehicles to be recharged from the electricity grid.
Hydrogen produced from natural gas, coal, or oil through processes such as steam methane reforming (SMR) or coal gasification.
Storage and transport of hydrogen in compressed gaseous form, typically at 350–700 bar, using cylinders, tube trailers, or pipelines.
A data centre designed and operated to minimise energy consumption and carbon emissions through renewable energy, advanced cooling, and AI-powered efficiency optimisation.
The technical and operational processes for connecting renewable energy, storage, and distributed resources to the power grid while maintaining stability and reliability.
High Voltage Direct Current transmission — a technology for transmitting large amounts of electricity over long distances with lower losses than AC systems.
An on-site device that produces hydrogen from water electrolysis or other processes, eliminating the need for hydrogen delivery and storage.
Technologies and infrastructure for safely storing and transporting hydrogen from production sites to end-use applications.
The use of control systems, PLCs, SCADA, robots, and digital technologies to operate industrial processes with minimal human intervention, improving efficiency, safety, and consistency.
Hydrogen recovered as a by-product from industrial processes such as chlor-alkali production, coke ovens, and petrochemical refining.
The integration of digital technologies — IoT sensors, cloud platforms, AI analytics, and digital twins — into industrial electrical systems to enable real-time monitoring, predictive maintenance, and energy optimisation.
An autonomous or semi-autonomous robotic system that performs routine inspection, thermal imaging, and anomaly detection in substations or along transmission lines, reducing the need for human entry into hazardous high-voltage environments.
Electrical insulating materials and components — including insulators, bushings, and insulating resins — that isolate energised conductors from ground and from each other in power equipment.
Storage and transport of hydrogen in cryogenic liquid form at –253°C, offering higher energy density than compressed gas for large-volume applications.
The hardware and control systems that enable a localised energy network to operate independently or in coordination with the main grid, including inverters, controllers, storage, and protection devices.
The ability of the power grid to fully utilise electricity generated by renewable energy sources without curtailment.
Devices that measure, record, and display electrical parameters — including voltage, current, power, energy, and power quality — in power systems and industrial facilities.
The application of Internet of Things technology to power grid infrastructure, connecting sensors, meters, and equipment to enable real-time monitoring, remote control, and data-driven grid management.
A measure of how closely the electrical supply conforms to ideal sinusoidal voltage and current waveforms, encompassing voltage stability, frequency stability, harmonic distortion, and absence of interruptions.
The ability of a power system to regain a state of operating equilibrium after being subjected to a physical disturbance, maintaining synchronism among generators and acceptable voltage and frequency levels.
High-voltage apparatus that directly carries, switches, or transforms electrical energy in transmission and distribution networks, including transformers, circuit breakers, and busbars.
Low-voltage apparatus that monitors, protects, controls, and meters the primary power circuit, including protection relays, RTUs, IEDs, and substation automation systems.
A static electromagnetic device that transfers electrical energy between circuits by stepping voltage up or down for efficient transmission and distribution.
A compact, sealed medium-voltage switchgear assembly used to connect consumers to distribution ring mains, widely deployed in urban cable networks.
Supervisory Control and Data Acquisition — a control system architecture for real-time monitoring and control of power infrastructure.
An electricity network that integrates digital communication, sensing, and control to enable two-way power flow, real-time monitoring, and automated optimisation.
Advanced electricity meters with two-way communication, interval data recording, and remote management capabilities that enable automated meter reading, demand response, and real-time energy monitoring.
The combination of solar PV generation with battery storage in a single integrated system, maximising self-consumption and enabling dispatchable clean energy.
Hydrogen storage using solid materials — such as metal hydrides or chemical carriers — that absorb and release hydrogen through chemical or physical bonding.
A holistic power system design philosophy that co-optimises generation, transmission, flexible loads, and storage as an integrated system.
Electrical equipment used to control, protect, and isolate circuits and equipment in power systems, encompassing circuit breakers, disconnectors, and associated controls.
A project delivery model in which a single contractor assumes full responsibility for design, procurement, construction, and commissioning of a power infrastructure project, handing over a fully operational facility.
Ultra-High Voltage transmission at 1,000 kV AC or ±800 kV DC, enabling bulk electricity transfer over thousands of kilometres with minimal losses.
A cloud-based system that aggregates distributed energy resources — solar, storage, and flexible loads — to function collectively as a single dispatchable power plant.
An electrochemical process that uses electricity to split water into hydrogen and oxygen, producing green hydrogen when powered by renewable energy.
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