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Connecting the green dots

Often overlooked, grid operators are at the frontlines of climate change. As Germany embarks on an ambitious plan to scale up renewables, Letha Tawney looks at the challenge of transmission.

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In renewable-energy circles, there is a real excitement about Germany’s latest plans to move away from nuclear and towards renewable energy. The state of California has similarly raised its renewable-energy goals for electricity to 33% by 2020, while China has repeatedly outstripped its wind-energy targets and is on track to install 90 gigawatts by 2015.

However, large-scale renewable power, particularly electricity generated from the sun and wind, relies heavily on the electricity grid. The electricity grid is the way power is moved from generators to customers. While coal can be shipped to a city and burned in a nearby power station, renewable energy has to be generated wherever there is a lot of sun or wind. In China and the United States in particular, this can be a long way from the large cities. As a result, renewable energy often has to travel a long distance on the grid to reach consumers.

The grid is frequently weak in the rural areas that have good renewable energy resources, so absorbing all the available power can be difficult or even impossible. Across the United States, rural areas experiencing a boom in wind farms face an overloaded grid that doesn’t reach large cities on either coast. The 2010 China Wind Power Outlook, jointly released by the Global Wind Energy Council, the Chinese Renewable Energy Industries Association and Greenpeace China tells of similar challenges facing the rapid expansion of the wind power bases in China.

Power generated from the sun and wind is also intermittent: there is no power when the sun doesn’t shine and the wind doesn’t blow. There are a few ways that grid operators – the technicians responsible for keeping electricity moving through the grid – cope with intermittent power. They can draw renewable energy from a wide area, in the hope that the wind is blowing or the sun is shining somewhere. They can manage the customer demand by arranging to disconnect large users for a few hours. Finally, they can arrange for backup power generation by a controllable power source like hydropower or natural gas turbines. Grid operators can use a blend of all three of these strategies – but the first option particularly requires lots of strong, tightly integrated grid capacity between regions.

China is currently investing heavily to create this sort of tightly integrated, strong grid that can move renewable energy from the west and north to the large cities on the coast. However, building lots of new power lines is only the beginning of what is necessary to really scale up the proportion of renewable energy used by a country. There are many supporting policies, procedures and technologies needed to allow the grid operator to make the most of intermittent renewable power.

For example, it is important to have very precise weather forecasts, particularly 24 hours ahead. High-quality weather forecasts allow the grid operator to plan on receiving at least a minimum amount of renewable power to meet the expected customer needs. Then the operator does not need to schedule as much coal or other power to be generated, reducing pollution and saving fuel.

Renewable power can be more expensive to produce than options like coal and natural gas. This is partly because fossil fuels are often subsidised, directly or indirectly, and partly because renewable-energy technologies are not yet as mature as fossil-fuel technologies. The grid operator’s standard procedure is to use the cheapest power first. So the government must mandate that the grid operator purchase the renewable power even when it is not the cheapest option. This can be done in a variety of ways, including through a renewable-portfolio standard or something called a priority-dispatch requirement, but the goal of all of the tools is to change how the grid operator chooses which generators to use each hour.

One of the grid operator’s key responsibilities is to keep the grid stable by perfectly balancing the electricity generated with the electricity demanded at all times. A stable grid requires several supporting services, called “ancillary services” in the industry. These include services like backup generation that can come online within seconds or minutes in case a power station fails unexpectedly.

Backup generation is, of course, also one strategy to manage intermittent renewable power. However, in regions – like many in China – that are heavily dependant on coal for power, there may not be good backup generation options that can come online very quickly. For coal to act as backup generation, the power plant must be constantly burning fuel to keep the boiler hot, while it waits to be needed. Thus, backing up renewable energy with coal means there is little to no pollution benefit from using the renewable energy: the coal plant is running anyway. To really see the benefits of renewable energy, it is important for the grid operator to also have cleaner options for the “ancillary services”.

In Germany, the latest wind turbines include technology that allows them to provide some other ancillary services, such as reactive power. This is a great step towards integrating renewable power in the grid, but it does not necessarily solve the specific challenge of backup generation. To take full advantage of renewable power, the grid operator and decision makers need carefully to consider the full technical and procedural options for ancillary services.

A special report on the potential of renewable energy by the Intergovernmental Panel on Climate Change, published in May, confirmed that there is enough wind, water, sun and biomass to meet our energy needs with today’s technology. However, there are many barriers to utilising that resource effectively. Building and strengthening the grid is one piece of the puzzle, but just as important are the policies, procedures and technologies used to manage the grid today. These need to adapt and grow to seamlessly integrate renewable power. Grid operators in particular will be key to maximising the greenhouse-gas reductions that we might see from using renewable energy for electricity. They have a critical role to play in the work to safeguard the climate.

 

Letha Tawney is a senior associate at the World Resources Institute.

Homepage image from Greenpeace

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Default thumb avatar
gaidee

电老虎:屁股碰不得?

电网扮演着一个特别的角色,这篇文章指出了这一点,很欣慰。

我们天天都在用电,可是很多人对电这个玩意还是一知半解,也实在是件遗憾的事情。电有两个基本特征,一是以光速运行,所以时刻需要保持生产和需求的平衡,二是电网的潮流很复杂,你不能确定你使用的电来自哪个发电机,不管是风电还是太阳能(很遗憾)。还有呢,就是电力行业高度垄断,在中国尤甚,运行不透明,信息部对称,监管不到位,老百姓完全就是“被服务”。再者,电力也是个高危行业,但是也属于经济之命脉,不让普通物质的老百姓触碰,主次种种,造成目前之电网和低碳、节能乃至环保的脱节,特别是在发展中国家尤甚,发达国家也好不到哪里去。自爱迪生1882年9月4日在纽约曼哈顿开启首个大型变电所以来的130年,实际上电力行业的变迁甚少,问题的源头是在这个伟大的发明家,也在美国。IPCC也好,还是其他人也罢,整天在唠叨着可再生能源这样好那样好,不把电网公司搞定,再好的东西也不能大面积铺开,这也是全球面临的大问题,中国尤其如此,搞过可再生能源的诸君心里面清楚地很呢。

The power industry: is it untouchable?

The power grid plays a special role which I am pleased to see this article points out.

We use electricity everyday but many people have very little knowledge with regards to electricity which is unfortunate. Electricity has two basic characteristics, one is that it moves at the speed of light, so the balance between production and demand needs to be constantly maintained, the second is that the use of the grid is very complex, you do not know for sure whether you are using electricity from generators regardless of wind or solar power (very regrettable). Also, there is a high degree of monopolisation in the power industry, particularly in China, where it is run non-transparently, the owners have sole power over information, there is no regulation and the ordinary people are only ever customers. In addition, power is also a high-risk industry but is part of the lifeblood of the economy. It cannot be influenced by the ordinary people in various ways, resulting in the present state of power grids and low-carbon, energy-saving and environmental protection being out of their influence, particularly in developing countries while developed countries are not much better. Since Edison turned on Manhattan’s first large-scale substation on September 4, 1882, in the 130 years past, little has changed in the power industry, the source of the problem is in the great inventor, but also in the United States. The IPCC also, or just other people worth mentioning with all the nagging of renewable energy, “this type is good, that type is good”, it is not sorted out by the energy companies, no matter how good things are there cannot be a large-scale roll out. Those who have engaged in the renewable energy industry know clearly that this is not only a serious problem faced by China, but also the world.

Default thumb avatar
anumakonda

要利用可再生能源必须对供电能力进行评估

好文章。是啊,对电网供电能力的评估是更广泛使用可再生能源的前提。很多国家都面临这个问题。

Dr. A. Jagadeesh Nellore (AP),印度
风能专家
电子邮件:[email protected]

Evacuation of power must for Renewable Energy power

Good article. Yes. Evacuation of power through grid is a prerequisite for wider installation of Renewable Energy. This problem is faced in many countries.

Dr.A.Jagadeesh Nellore(AP),India
Wind Energy Expert
E-mail: [email protected]