Nowadays, we all have a power outage! But have you ever wondered why sometimes electricity is cut off at certain times or voltage fluctuations occur? One of the key responses is energy imbalance in the power grid. Natrazi occurs when the amount of electricity generated is not in line with the instantaneous demand. In many countries, especially during the hot days of the year when coolers and cooling appliances work intensively, electricity consumption exceeds the production capacity. This imbalance disrupts the power grid, damages equipment, and even leads to widespread blackouts. Natrazi management is one of the most important challenges in the electricity industry during the transition to renewable energy. Because resources like the sun and wind are not sustainable and are not always available. So we need calculated, scientific solutions to address this imbalance.
Why is the use of new technologies important in managing natrazi?
With the advancement of technology, new solutions have been introduced to compensate for the uneven power grids. These technologies include battery storage, artificial intelligence in demand forecasting, and most importantly the use of hidden heat sources such as waste heat. In the meantime, ERC technology, or the organic Rankin cycle, has been proposed as a creative and practical solution. ERC produces electrical energy using heat that was dissipated in industrial processes. This generating energy returns to orbit at times when the grid is undersupplied and helps balance the system.
What is the organic Rankin cycle (ORC) and how does it work?
The organic Rankin cycle (ERC) is similar to the traditional Rankin cycle used in steam power plants, but with one important difference: in ERC, organic fluids with a lower boiling point are used instead of water. This feature allows ERC to generate electricity from lower-temperature heat sources, such as factory waste heat or comforter renewables (such as shallow geothermal). The process is that the organic fluid is heated in the heat exchanger, converted into steam, propelled the turbine, and then condensed again, repeating the cycle. This technology is very useful for industries that constantly produce waste heat. Since the ERC enters orbit quickly, it is also suitable for emergency power supply and instantaneous natrazation compensation.
The role of the ABC in compensating for energy imbalances during peak hours
Peak hours, especially in summer, are a nightmare for power grids. Electricity demand is increasing sharply, and power plants are working at full power. But they are not always enough. This is where the ABC comes in like a savior. By connecting ERC to secondary heat sources such as industrial waste heat or stored solar energy, electricity can also be generated during peak hours.
The advantage of the ERC is that unlike fossil power plants, it has very little start-up time and enters the network with agility. Also, this technology increases the life of the equipment and reduces maintenance costs by reducing the pressure on the main production units. In this way, the ERC plays an important role in controlling the inertia and stabilizing the operation of the power grid.
How does the ERC work in the absence of alternating sources such as wind or sun?
One of the main challenges of renewable sources such as solar and wind energy is the lack of continuity in electricity generation. The sun doesn’t always shine, and the wind doesn’t always blow. In such a situation, the use of ERC as a complementary technology becomes very important. For example, on cloudy days or at night when solar power generation reaches zero, ERC enters orbit using heat stored in thermal systems. Also in wind farms that suffer from production drops, industrial waste heat is used to feed the ERC and provide part of the network load. This feature makes ERC play an important role in balancing supply and demand in hybrid systems of new energy.
Short-and long-term benefits of ABC in reducing energy inequality
In the short term, the use of ERC helps reduce peak consumption, increase network resilience, and reduce dependence on fossil fuels. In an emergency, the ERC enters the circuit quickly and responds to the network’s needs. This technology brings more sustainability to consumers in times of crisis or potential outages.
In the long run but the benefits are more impressive. The development of ERC in various industries will restore wasted energy, reduce greenhouse gases, save energy production costs and sustainable development. Also, using ERC, an infrastructure can be created that can better coordinate with renewable resources. In simpler terms, the ABC is the answer for today and is a great investment for the country’s energy future.
Which industries benefit the most from the ABC in the fight against infertility?
ERC is widely used in industries that continuously produce waste heat. Industries such as steel, cement, petrochemicals, papermaking and refineries are among the big energy consumers who also have a high volume of waste heat at the same time as high consumption. This heat, which has so far gone mostly unused to the open environment, is a source of electricity generation with the help of the ABC.
On the other hand, hospitals, data centers, and even some urban areas that have central heat, are also able to use ERC. Also, small and medium-sized low-efficiency thermal power plants can increase their efficiency and help balance the network by adding ERC. The scope of the ERC’s application to tackling natrazi is therefore broad and diverse.
Why is the future of natrazi management dependent on the ABC?
As energy consumption has grown and the transition to renewable energy has become a major challenge. In the meantime, technologies that can use passive and accessible heat sources can be the key to solving this crisis. ERC is one of the technologies that can be relied on both economically and environmentally. Since ERC infrastructure development does not require massive investments and is installed alongside existing systems, it can quickly become widespread. Countries that lead the way in managing natrazi have all incorporated the use of ORC into their applications. Iran, due to the high volume of heat dissipation in industries, can also use ERC as one of the pillars of the sustainability of the electricity grid in the future.
Arvaj clean energy company, a leader in ERC projects in Iran
Among the companies active in the field of new energy in Iran, clean energy company is known for its extensive experience in designing and implementing ERC projects. The company has been able to implement successful projects in various industries by relying on technical knowledge, precision engineering and cooperation with reputable global brands. All the steps from custom design of the ERC system to thermal conditions to installation, commissioning and after-sales service are done by arrowj. In addition, the company is ready to provide expert advice to various industries to exploit waste heat and convert it into electricity. The presence of experienced experts, the use of up-to-date equipment and the commitment to sustainable development are among the features that have made arrowj a reliable option for the energy industry.
To balance energy, act now!
If you’re also in an industry that’s facing waste heat or has trouble managing energy costs, it’s time to put ERC technology on your agenda right now. Clean energy company arrowj is ready to provide you with free expert advice, appropriate solutions and optimal project implementation. With a simple call, you can start the path to energy savings, reducing uneasiness and moving towards a sustainable future. Decide today, to create a brighter tomorrow for industry and the environment.