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Load Shedding and demand curtailment are critical for the preservation of essential loads and avoiding widespread system outages. This power balancing strategy should be based on an integrated fast-responding system that considers process and power system dynamics.
Utilizing an electrical digital-twin foundation with embedded predictive analytics, adaptive optimization algorithms, and action validation, etap Intelligent Load Shedding ensures fast, safe, optimized, proactive, and reliable operation.
Intelligent Load Shedding means the monitoring and making decisions based on the state of the system model, value of the operation, criticality of the processes running, and environmental impact.
ETAP iLS predicts the optimal load shedding scenario based on actual system dynamics, making it the most intelligent solution available, hands down.
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Preserve system operation against disturbances, loss of generation, and unplanned outages.
Restores loads incrementally based on knowledge of process and electrical system interdependencies
Validate load shedding logic schemes via simulation prior to field deployment
A model-driven controller integrated with real-time operational digital twin to validate, optimize, predict, and perform load shedding.
An incorrect or insufficient response to a disturbance such as a fault or a system islanding event can cause excessive shedding or total system blackout. These large and sudden disturbances result in extensive operational disruptions and costly recoveries. How much to shed and how fast is the answer.
How much load and what combination of loads needs to be shed in order to maintain system stability?
Optimal Load Shedding - The correct and optimal amount of load to shed depends the system dynamics, inertia, and actual operating conditions, knowledge of past system disturbances as well as the type and duration of disruptions.
Are the revenue-generating processes and priority loads preserved during the outage?
A model-driven load shedding solution incorporates power system topology with Dynamic Load Priority tables to automatically analyze and track the system changes with a fast-acting response to disturbance triggers. All with objective to preserve critical process by saving essential loads and protect against production loss while maintaining service continuity, system uptime, and process survivability.
How are the critical processes in danger of a disorderly shutdown, left to run?
A Proactive Intelligent Load Shedding system provides faster, and proven optimal load relief by utilizing an electrical digital twin foundation with embedded power and process predictive analytics, adaptive optimization algorithms, and Action Validation to secure service continuity to critical processes and subsystems.
Will the designed load shedding scheme operate properly when triggered?
A unique advantage of a model-driven solution is the ability to easily simulate what-ifs, test, tune, and confirm the load shedding response both in design phase and in real-time operation mode.
Can the system be restored quickly and properly and how?
Load Restoration & Management applications integrated as part of the intelligent load shedding solution ensure quick recovery and orderly restoration to minimize the duration of a costly downtime following a disturbance.
How is limited power diverted and distributed around the system?
Effective restoration ensures faster process startup and alignment while maintaining fault isolation without exceeding the capacities of alternate power sources and routes.
Does the system have adequate spinning reserves?
The load shedding system must be pre-armed with knowledge of the power exchange and balance between the system loading and available generation, for pre and post disturbance conditions. The solution must ensure that adequate spinning reserves are available to minimize fuel cost consumption and reduce the need for hot-standby generators.
How to reduce the cost of spinning reserve equipment and fuel?
By reducing the amount of required spinning reserve, the added savings on the fuel cost and maintenance for these diesel generators offers an immediate ROI.
How to safeguard the most valuable resources?
Early detection and instantaneous action of an appropriate load shedding response prevents compromised production throughput and safeguards plant and personnel safety.
How to guarantee preservation of power to mission-critical processes and areas?
Intelligent load shedding system continuously monitors and predicts system response at any instant of time to guarantee reliable and repeatable response while striking a balance between safety, plant uptime, and operating cost.
For more than 30 years, ETAP Intelligent Load Shedding solution has ensured safe and reliable operation across a range of industries from Oil & Gas to Hospitals, and Manufacturing. Learn how ETAP iLS delivers value and savings from implementation to benefit recognition.
We recommend ETAP solution for Mining and Power Generation industries for real-time monitoring and intelligent load shedding. Since the implementation of ETAP Load Shedding System at our mining side, cost-avoidance of downtime has added to approximately about $5 Million. More importantly, by not running diesel generators, we have a total cost-avoidance of $72 Million. Amman Mineral
We recommend ETAP solution for Mining and Power Generation industries for real-time monitoring and intelligent load shedding. Since the implementation of ETAP Load Shedding System at our mining side, cost-avoidance of downtime has added to approximately about $5 Million. More importantly, by not running diesel generators, we have a total cost-avoidance of $72 Million.
Amman Mineral
Amman Mineral, operator of one of Indonesia’s largest copper-gold mines, significantly reduced production losses caused by a variety of environmental disturbances by implementing ETAP Intelligent Load Shedding solution. To date, the facility has a total cost-avoidance savings of more than $72 Million from not running diesel generators through optimization and reduction of spinning reserves requirements.
The critical loads in a mining company include the mills involved in unearthing process as well as the motors that cool them. Sag mills as large as 12,000 HP are the backbone of the entire process. Due to disturbances at the supply, if these machines are shed, it typically takes 24 hours to bring them back in operation. ETAP ILS monitors the entire system collectively and knows the status of every individual load and the amount of loading. ETAP ILS uses this knowledge to reprioritize the load shedding list dynamically such that all critical loads in the mining company are being preserved under foreseen or unforeseen circumstances with an estimated saving of at least $500,000 per day.
By providing a faster and intelligent control of the loads being shed, the required spinning reserve demand was reduced tremendously. By reducing the amount of required spinning reserve, the savings on the fuel cost and maintenance for these diesel generators paid for ETAP ILS in the first six month alone.
ETAP ILS scans the system periodically for signs of disturbance and in some cases potential disturbance such as a trip on the pulverizer that crushes the coal for the steam generator. After a pulverizer trip, the coal feed into the combustion chamber will be reduced and eventually will result in a drop on the steam pressure and final electrical output. ETAP ILS does not wait for the system to reach that stage and instantaneously knows how much load shed needs to be done to prevent mechanical stress on generators and the rest of the system. ETAP ILS is trained to think and it always double-checks to make sure the disturbance signal it is receiving is in fact true and not a nuisance signal. With multiple redundant units available, ETAP ILS is the safest and reliable method for load shedding.
The power and functionality of ETAP Intelligent Load Shedding system really hit the mark with the challenges Holcim had at the plant. The risk from unscheduled power outages has all but almost disappeared. The fact that iLS was relatively easily integrated and implemented was the key to an immediate ROI. Holcim Cement
The power and functionality of ETAP Intelligent Load Shedding system really hit the mark with the challenges Holcim had at the plant. The risk from unscheduled power outages has all but almost disappeared. The fact that iLS was relatively easily integrated and implemented was the key to an immediate ROI.
Holcim Cement
Lafarge Holcim’s Cement Plant in El Salvador is the country’s leading company in the production and marketing of cement, concrete and high-quality aggregates. ETAP was approached by Holcim to replace their slow, unreliable load shedding system which proved ineffective in preserving the power system against disturbances caused mainly by power grid due to unstable weather and lightning strikes. Each outage at the plant has an impact of 1.2 million ton's production loss.
With Holcim’s power generators running continuously to support a power contract to provide power to the grid to help offset peak loads, the unscheduled outages were proving costly, not to mention compromising the plant’s goals of meeting its own requirements to maintain the process load operating 24 hours per day, every day.
The plant’s existing load shedding system were proving to be too slow and otherwise too limited in their ability to respond to the broad and diverse range of operating scenarios necessary to satisfy the operating conditions and business objectives of the plant. In fact, the existing system either would under-shed or over-shed the load causing the system to become unstable and resulting in partial or total plant shutdown.
With the help of multi-threading technology ETAP ILS determines, simultaneously and instantaneously, optimal amount of load to shed under various possible disturbances. Using intelligent grouping and sorting techniques, ETAP ILS determines exactly how much load needs to be shed and what combination of loads would help it reach that target in order to maintain system stability.
Holcim’s ETAP Intelligent Load shedding system remains fully armed at all times, ready to act on multiple scenarios depending on the specific conditions occurring at that time. The ILS system gathers system parameters throughout the electrical network, including the generation and loading status, to adjust its ever changing load shedding scenarios. By the time an event occurs, the substation (local) controls have already been instructed by the ILS system to act, namely, to switch loads as required to properly load the generators and keep the plant running.
The ILS system remains several steps ahead of the event condition by virtue of its constant monitoring and modeling of the entire electrical system, taking into account maintenance cycles, operational changes, or any last minute changes in process control.
The ILS system automatically senses changing conditions and responds with new instructions on continuous basis, allowing the system overall to react within 25 milliseconds or less to an event.
ETAP predictive load shedding system calculates the minimum-required power to be shed, as well as the best combination of loads for each subsystem according to type and location of the disturbance, actual operating generation, spin reserve, loading, configuration, load distribution, and priority. All is executed instantaneously (no delay) once a disturbance occurs in the system for transient events or after user-defined time delay for steady-state overload conditions.
Goes beyond reactive load shedding when a disturbance is detected.
Determines how much load shedding is needed and in what optimal combination to prevent stress on the rest of the system.
Responds to power disturbances instantaneously (no delay) from detection to load shed.
Restores loads incrementally based on knowledge of process and electrical system interdependencies.
Easily test and confirm load shedding logic schemes in real-time mode using integrated Transient Stability Analysis engine.
Utilizes robust calculation methods designed on an open architecture platform that allow system-wide validation of load shedding schemes via simulation prior to field deployment.
ETAP Intelligent Load Shedding - iLS™ dynamically and instantaneously determines the best load shedding priority.
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This webinar presents how ETAP iLS Controller ensures fast, safe, comprehensive, and reliable operation by utilizing an electrical digital-twin foundation with embedded predictive analytics, adaptive optimization algorithms, and action validation to make Faster than Real-Time decisions.
At a given nuclear power plant, nuclear safety is directly dependent on a reliable source of electric power supplied via the plant’s auxiliary power system. The auxiliary power system typically consists of an MV and LV AC and a DC distribution system, powering thousands of individual loads and circuits. The presentation explores past practices and recent developments in the online monitoring of such systems using a digital twin. It includes the reasons for utilizing online monitoring, the advantages and benefits, i.e., business, safety, reliability.
The presentation will show the implementation of the intelligent load shedding (ILS) of ETAP, in the water treatment plant of Bello, Colombia. First, a description of the production process that is carried out within the plant will be given, then particularities of the power system will be shown, and a general description of the architecture regarding the automation system of the plant will be made. Finally, the intelligent load shedding system will be presented, as a predictive system to keep the system online, in the event of contingencies that affect its stability.