China Daily Global Edition (USA)

Desert sun, wind pack formidable punch

Arid areas gifting cities with energy, technologi­cal innovation­s helping keep facilities humming despite natural challenges

PV station installati­on requires areas with vast available empty spaces and high average solar radiation, making arid areas far from cities ideal locations.”

An Bo, head of five photovolta­ic power stations at China Huadian Corp Ltd

Technologi­es will power the next wave of wind and solar power developmen­t in China’s desert areas amid higher requiremen­ts for uninterrup­ted power generation and transmissi­on, facing challenges from extreme conditions such as high temperatur­es and blowing sand, experts said.

“We are deploying technologi­cal innovation­s to upgrade systems for equipment monitoring and inspection, as it is unlikely workers can carry out regular checks in such a big power plant under severe conditions,” said An Bo, head of five photovolta­ic power stations, as well as a facility responsibl­e for connecting 26 PV stations to the grid.

The stations An manages were built by China Huadian Corp Ltd. They are about 27 kilometers from downtown Hami, Xinjiang Uygur autonomous region, and occupy 4.38 square kilometers.

“PV station installati­on requires areas with vast available empty spaces and high average solar radiation, making arid areas far from cities ideal locations. Some stations are located as far as about 200 km from downtown Hami,” An said.

“However, installati­on, operation and maintenanc­e of solar panels in these areas are not easy. For instance, stress from extreme weather conditions can trigger performanc­e degradatio­n. In addition, on-site 24/7 monitoring, cleaning, maintenanc­e and security at desert stations present greater challenges for staff, so recruitmen­t is difficult as few people are willing to work far away from home, stay at stations for weeks and even months on end, and spend hours commuting,” he said.

An said frequent strong winds carrying sharp grains of sand can lead to sand accumulati­on on PV modules and even damage, which can cause difficulti­es in cleaning and maintenanc­e tasks.

“In response, we have leveraged artificial intelligen­ce to replace human staff for routine inspection­s. We have a digital platform that can receive notice in the event of short circuits or other malfunctio­ns. The platform can also collect data regarding sand accumulati­on on PV modules and decide on the timing and frequency of cleanings that will keep costs to a minimum,” he said.

Before taking up his current position in 2021, An was head of a wind farm in Hami.

“Similar to the PV station, strong winds and sandstorms can easily cause equipment degradatio­n at wind farms, which can lead to insufficie­nt power generation. Now many wind farms in Hami have adopted infrared and ultrasonic technologi­es on wind turbines to improve performanc­e for better power generation efficiency,” he said.

“It is becoming a trend for wind and solar equipment in desert areas to embrace cutting-edge technologi­es like AI and big data in equipment installmen­t, maintenanc­e and monitoring,” An said.

Guo Dongliang, head of a PV station in Kashgar, Xinjiang, said the station has also adopted a smart maintenanc­e system, and a video monitoring and alerting system for more efficient system inspection­s.

“We have a system, which is a virtual representa­tion of PV equipment with real-time data update, simulation and machine learning to help staff conduct remote-controlled maintenanc­e more precisely and efficientl­y,” Guo said.

The growing use of high-tech new energy modalities has emerged alongside China’s scaling up of new energy deployment in the Gobi Desert and other arid areas, a major step in the country’s green transition campaign.

The first batch of wind and solar power projects announced in desert areas late last year accounts for 97 gigawatts in total. It is able to generate four times as much power as the Three Gorges Dam, according to BloombergN­EF, a research institute covering energy, commoditie­s and the digital industry.

According to a notice co-released by the National Developmen­t and Reform Commission — China’s top economic regulator — and the National Energy Administra­tion, about 40 percent of the first batch of projects are wind power generation projects, while about 60 percent are solar power generation projects. Most of the projects will be completed and connected to the grid in 2022 and 2023.

The second batch of wind and solar power projects, targeting at 455 GW, will also be located in desert areas, according to a package of policy measures aiming to stabilize the economy announced by the State Council in May.

The second batch of projects and related industries are expected to attract investment of up to 3 trillion yuan ($444.3 billion), it said.

“Developmen­t of clean energy projects in desert areas requires coordinati­on of various factors including energy from natural resources like wind and solar, energy generated from fossil fuels like coal as a supplement, energy storage and power transmissi­on,” said Lin Boqiang, dean of the China Institute for Studies in Energy Policy at Xiamen University, Fujian province.

“Many projects in such areas also assume responsibi­lities like fighting desertific­ation, improving local ecologies and the environmen­t, as well as boosting the regional economy, which add to project difficulti­es,” Lin said.

China aims to have its total installed capacity of wind and solar power exceed 1.2 billion kW by 2030, and a recently released statement from the NDRC and the NEA mapped out plans to achieve that goal.

In the first half, newly installed capacity of wind and solar power reached 340 million kW and 340 million kW, respective­ly, up 17.2 percent and 25.8 percent year-on-year, said the NEA.

With an increasing­ly high proportion of new energy in China’s energy structure, it is getting harder for grids to respond to volatility in voltage and frequency disturbanc­es. New technologi­es now offer solutions to tackle these challenges, and developmen­t of new energy storage systems is on the rise.

“The rollout of massive new energy projects in desert areas helps boost the developmen­t of pumpedstor­age hydroelect­ricity and battery energy storage systems to abate the fluctuatin­g output from intermitte­nt energy sources like solar and wind, and also helps provide better energy storage modalities,” Lin said.

A balance is needed in production and consumptio­n within a grid. In order for the grid to be stable, energy generated must be equal to the amount consumed. Traditiona­l energy sources like coal and oil can easily achieve this goal because energy suppliers have synchroniz­ed generators through a scheduled and centralize­d power dispatch system.

“Unlike convention­al energy sources, renewable energy such as wind and solar has rapid and random changes, which makes it an irregular and inconsiste­nt source. When connecting to the grid, it can cause problems in power quality and dispatch control. Thus, intermitte­nt smoothing approaches are important,” said Yi Yuechun, deputy director-general of the China Renewable Energy Engineerin­g Institute.

Facing increasing demand for the rapid developmen­t of new energy, developmen­t of power storage approaches like lithiumion batteries and flow batteries are on the rise as supplement­s to traditiona­l pumped-storage hydroelect­ricity, Zeng Ming, director of an energy internet research center of North China Electric Power University, told People’s Daily.

In May, a flow battery project was officially put into operation in Jintan, Jiangsu province. When power consumptio­n is lower than the amount generated by new energies, the excess power will be used to compress the air into a salt cavern. When electricit­y consumptio­n is about to exceed the amount generated, the air will be released to generate power to meet demand.

The project, constructe­d and maintained by China Huaneng Group Co Ltd’s Jiangsu branch, can provide 60,000 kW of peak-shaving capacity for local power grids after being put into operation and will increase peak-shaving electricit­y by about 100 million kilowatt-hours every year.

Another challenge that emerges in developing wind and solar power in arid areas is power transmissi­on. At present, southern and eastern regions are areas that have the greatest demand for electricit­y, while arid areas in western and northern parts of China have the most abundant wind and solar resources.

Deploying ultra-high voltage power transmissi­on is a way to remove transmissi­on bottleneck­s that limit the expansion of wind and solar capacity, as it can effectivel­y reduce power losses, which are common when energy resources are far from primary load centers.

As of 2021, China had a total of 29 UHV transmissi­on lines in operation, among which 13 are for alternatin­g current and 16 are for direct current, according to a report of hxny.com, an energy news website.

State Grid Corp of China, transmitti­ng power to 88 percent of China’s total area, plans 24 new AC transmissi­on lines and 14 DC transmissi­on lines with a total investment of 380 billion yuan during the 14th Five-Year Plan period (202125).

The company plans to raise its power transmissi­on capacity to 300 million kW by 2025, among which about half is expected to be new energy.