Building the worlds largest and most controversial power plant Alex Gendler

In 2018, a single power plant
produced more energy

than the world’s largest coal-powered
and gas-powered plants combined.

And rather than using finite fossil fuels,

this massively powerful plant relied on
a time-tested source of renewable energy:

running water.

Stretching over 2.3 kilometers,

China’s Three Gorges Dam isn’t just
the world’s largest hydroelectric plant.

It’s capable of producing more energy
than any other power plant on Earth.

So what allows Three Gorges
to generate all this power?

And how do hydroelectric plants
work in the first place?

A hydroelectric dam is essentially
a massive gate,

which redirects a river’s natural flow
through a large pipe called a penstock.

Rushing water flows through the penstock
and turns the blades of a turbine,

which is attached to a generator
in an adjacent power station.

The turning of the blades spins coils
of wire inside a magnetic field,

producing a steady supply of electricity.

Because the penstocks can be sealed
at any time,

a dam can hold back excess water
during stormy seasons,

and save it for dry ones.

This allows hydroelectric dams
to produce power

regardless of the weather,

while simultaneously preventing
floods further downstream.

These benefits have long appealed
to China’s Hubei Province.

Located near the basin
of the Yangtze River,

this region is prone to deadly floods
during rainy seasons

when the Yangtze’s flow is strongest.

Plans to build a dam that would
transform this volatile waterway

into a stable source of power circulated
throughout the 20th century.

When construction finally began in 1994
the plans were epic.

The dam would contain 32 turbines—
12 more than the previous record holder,

South America’s Itaipu Dam.

The turbines would supply energy
to two separate power stations,

each connecting to a series of cables
spanning hundreds of kilometers.

Electricity from Three Gorges would
reach power grids as far away as Shanghai.

However, the human costs
of this ambition were steep.

To create the dam’s reservoir,

workers needed to flood over
600 square kilometers of land upstream.

This area included 13 cities,
hundreds of villages,

and over 1,000 historical
and archaeological sites.

The construction displaced roughly
1.4 million people,

and the government’s relocation programs
were widely considered insufficient.

Many argued against this controversial
construction,

but others estimated that the lives
saved by the dam’s flood protection

would outweigh the trauma
of displacement.

Furthermore, raising the water level
upstream

would improve the river’s navigability,

increase shipping capacity,
and transform the region

into a collection
of prosperous port towns.

When the project was completed in 2012,

China became the world’s largest
producer of electricity.

In 2018, the dam generated 101.6 billion
kilowatt-hours.

That’s enough electricity to power
nearly 2% of China for one year;

or to power New York City
for almost two years.

This is a truly astonishing amount
of energy.

And yet, two years earlier,
another dam less than half the size

actually generated more electricity.

Despite Three Gorges record-setting scale,
the Itaipu Dam still produced more power.

To understand why Itaipu can outperform
Three Gorges,

we need to look at the two factors
that determine a dam’s energy output.

The first is the number of turbines.

Three Gorges has the world’s highest
installed turbine capacity,

meaning it’s theoretically capable
of producing over 50% more power

than Itaipu.

But the second factor is the force
and frequency of water

moving through those turbines.

Three Gorges spans several deep, narrow
ravines surging with powerful water.

However, the Yangtze’s seasonal changes
keep the dam from reaching

its theoretical maximum output.

The Itaipu Dam, on the other hand,

is located atop what was previously
the planet’s largest waterfall by volume.

Although the dam’s construction destroyed
this natural wonder,

the constant flow of water allows Itaipu

to consistently generate more
power each year.

This dam rivalry is far from over,

and other projects like the Inga Falls Dam
in the Democratic Republic of Congo

are also vying for the title
of most powerful power plant.

But whatever the future holds,
governments will need to ensure

that a power plant’s environmental
and human impact

are as sustainable as the energy
it produces.

2018 年,一座发电厂的
发电量

超过了世界上最大的燃煤电厂
和燃气电厂的总和。

与使用有限的化石燃料不同,

这个强大的工厂依赖于
一种久经考验的可再生能源:

自来水。

中国三峡大坝全长 2.3 公里,不仅
是世界上最大的水电站。

它能够产生
比地球上任何其他发电厂更多的能量。

那么是什么让
三峡产生了这一切力量呢?

水力发电厂
首先是如何工作的?

水电大坝本质上是
一个巨大的闸门,

它将河流的自然流量重新引导
通过称为压力水管的大管道。

湍急的水流过压力水管
并转动涡轮机的叶片,涡轮机

与相邻发电站的发电机相连。

叶片的转动
在磁场内旋转线圈,

产生稳定的电力供应。

因为压力管道可以随时密封

,大坝可以在暴风雨季节阻挡多余的水

并为旱季储存。

这使得水电大坝

无论天气如何都能发电,

同时防止
下游洪水泛滥。

这些好处长期以来一直吸引
着中国湖北省。 该地区

位于长江流域附近,在长江流量最强的雨季

容易发生致命的洪水

计划建造一座水坝,
将这条动荡的水道

转变为整个 20 世纪流通的稳定能源

当 1994 年最终开始施工时
,计划是史诗般的。

该大坝将包含 32 台涡轮机,
比之前的记录保持者

南美的伊泰普大坝多 12 台。

涡轮机
将为两个独立的发电站提供能量,

每个发电站都连接到一系列
跨越数百公里的电缆。

三峡之
电远达上海。

然而,
这种雄心壮志的人力成本很高。

为了建造大坝的水库,

工人们需要在
上游淹没 600 多平方公里的土地。

该地区包括13个城市、
数百个村庄

和1000多个历史
和考古遗址。

该建筑使大约
140 万人流离失所

,政府的搬迁计划
被广泛认为是不够的。

许多人反对这种有争议的
建筑,

但其他人估计
大坝防洪所挽救的生命

将超过
流离失所带来的创伤。

此外,提高
上游水位

将提高河流的通航能力,

增加航运能力,
并将该地区转变

为繁荣的港口城镇。

2012年该项目建成后,

中国成为世界上
最大的电力生产国。

2018年,大坝发电量1016
亿千瓦时。

这足以
为中国近 2% 的地区供电一年;

或为纽约市供电
近两年。

这是一个真正惊人
的能量。

然而,两年前,
另一座不到一半大小的大坝

实际上产生了更多的电力。

尽管三峡创纪录的规模
,伊泰普大坝仍然产生了更多的电力。

要了解为什么伊泰普能胜过
三峡,

我们需要看看
决定大坝能量输出的两个因素。

首先是涡轮机的数量。

三峡拥有世界上最高的
涡轮机装机容量,

这意味着它理论上
能够比伊泰普多生产 50% 以上的电力

但第二个因素是

水流过这些涡轮机的力和频率。

三峡横跨数条深而窄
的沟壑,水势汹涌。

然而,长江的季节性变化
使大坝无法达到

其理论最大产量。

另一方面,伊泰普大坝位于

以前地球上体积最大的瀑布之上。

尽管大坝的建设破坏了
这个自然奇观

,但持续不断的水流使伊泰普每年

都能持续产生更多的
电力。

这场大坝之争远未结束,刚果民主共和国的

英加瀑布大坝等其他项目

也在争夺
最强大发电厂的称号。

但无论未来如何,
政府都需要

确保发电厂对环境
和人类的影响

与其产生的能源一样可持续