Power Production Decentralizes in Mexico

Reforms aim to integrate distributed power and more renewables

2 min read
Power Production Decentralizes in Mexico
Image: iStockphoto

Over the last twenty years, Mexico's electricity sector has shifted from being almost 100 percent state-owned and centralized to about one quarter privately generated. This summer, the Mexican government signed into law energy and electricity grid reforms that will accelerate the decentralization of its electricity production (See “Mexico Opens Its Grid to Competition.”). By the end of this year, a new agency should have a regulatory map available for power producers large and small, said Edgar López, renewable energies director at Mexico's Energy Regulatory Commission (CRE) at a conference in Mexico City last month.

Mexico has long enjoyed cheap sources of energy but suffered from poor distribution. It loses around 17 percent of the electricity it produces in transit, compared to the 7 percent average of other members of the Organization for Economic Cooperation and Development, a rich country's club.

'In the long run, (microgrids) could constitute the principal design element of future electricity distribution systems.'

As a result, most of the distributed production of electricity has been sited at remote industrial plants whose managers were unwilling to pay Mexico's exorbitant retail electricity rates. The reform to the grid passed earlier this year will put the CRE in the role of a market overseer, rather than a benevolent, if inefficient, buyer and seller of electricity. López said that private investment in the grid should help drive down costs, and create opportunities for more distributed power production.

Another change that will accompany the decentralization of power production is that renewables should make up a larger fraction of production. To accommodate renewables, the grid will have to grow smarter, said Carlos Corona, an energy account manager at Siemens. He said that Mexico is already pioneering the sort of smart substation automation that will be necessary to handle more variable power production. A leading example is the substation at Ixtepec, Oaxaca, which handles electricity produced by windmills in the Isthmus of Tehuantepec, one of the world's windiest onshore sites. Components of that substation use fiber optic cables to communicate internally.

All those changes pave the way for local generation to connect to the rest of Mexico, and it opens an opportunity for the 2 percent or so of Mexicans without electricity, who are often in the weakest position to invest in connections to the national grid. Their plight has led to a drive for household and building-level generation. IluMéxico has established a comprehensive system for household and village-level solar generation, including local maintenance, management, and microfinancing.

The advanced substation at Ixtepec, Oaxaca, handles wind power from one of the world's windiest onshore sites

In fact, financial flexibility may be a key element to bringing off-grid generators into the fold of the national grid, Rolando Nieva, director of the division of electrical systems at the Electric Research Institute in Cuernavaca, Mexico said at last month's conference. Hardware companies are offering equipment for rent or lease now, to lower the barrier to entry for smaller, more remote markets.

Such communities may build microgrids with local power generation and management, Nieva predicted, but eventually they will plug into the bigger grid to take advantage of the increasingly competitive wholesale market. Unlike today's electricity consumers in Mexico, however, they'll have a choice, “They can work independently or be connected,” Nieva said. “In the long run, [microgrids] could constitute the principal design element of future electricity distribution systems."

The Conversation (0)
This photograph shows a car with the words “We Drive Solar” on the door, connected to a charging station. A windmill can be seen in the background.

The Dutch city of Utrecht is embracing vehicle-to-grid technology, an example of which is shown here—an EV connected to a bidirectional charger. The historic Rijn en Zon windmill provides a fitting background for this scene.

We Drive Solar

Hundreds of charging stations for electric vehicles dot Utrecht’s urban landscape in the Netherlands like little electric mushrooms. Unlike those you may have grown accustomed to seeing, many of these stations don’t just charge electric cars—they can also send power from vehicle batteries to the local utility grid for use by homes and businesses.

Debates over the feasibility and value of such vehicle-to-grid technology go back decades. Those arguments are not yet settled. But big automakers like Volkswagen, Nissan, and Hyundai have moved to produce the kinds of cars that can use such bidirectional chargers—alongside similar vehicle-to-home technology, whereby your car can power your house, say, during a blackout, as promoted by Ford with its new F-150 Lightning. Given the rapid uptake of electric vehicles, many people are thinking hard about how to make the best use of all that rolling battery power.

Keep Reading ↓Show less