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China is pumping out carbon emissions as if COVID never happened. That’s bad news for the climate crisis

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China is pumping out carbon emissions as if COVID never happened. That’s bad news for the climate crisis
Carbon emissions from China are growing faster now than before COVID-19 struck, data show, dashing hopes the pandemic may have put the world’s most polluting nation on a new emissions trajectory.

We compared emissions in China over the first four months of 2019 – before the pandemic – and 2023. Emissions rose 10% between the two periods, despite the pandemic and China’s faltering economic recovery. Power generation and industry are driving the increase.

Under the Paris Agreement, China has pledged to ensure carbon emissions peak by 2030 and reach net zero emissions by 2060. Our analysis suggests China may struggle to reach these ambitious goals.

Many believed the economic recovery from COVID would steer global development towards a less carbon-intensive footing. But China’s new path seems to be less sustainable than before. That’s bad news for global efforts to tackle climate change.

Steam flowing from industrial facility

China has pledged to ensure carbon emissions peak by 2030 – but it’s heading in the opposite direction. Olivia Zhang/AP

An alarming trend in emissions​

The COVID pandemic curbed greenhouse gas emissions in 2020, largely due to a drop in passenger travel. This led to hopes of a “green” economic recovery in which government stimulus spending would be invested into climate-friendly projects, to ensure a longer-term slowing of growth in emissions.

Some researchers examined the trends in China’s emissions up to 2019 and predicted the nation’s emissions would peak by 2026. Others have said the peak will occur even earlier, in 2025.

But unfortunately, it seems those predictions were too optimistic.

We examined data from Carbon Monitor, which provides science-based estimates of daily CO₂ emissions across the world. We compared emissions data from January to April 2019 (which represents typical pre-pandemic conditions in China) with the corresponding months in 2023. This period followed the removal of most COVID-related restrictions in China – such as testing requirements and quarantine rules – which essentially restored the country’s economy to business-as-usual.

We found average daily carbon emissions increased substantially between the two periods. In the first four months of 2019, China’s transport, industry, energy and residential sectors together emitted an average 28.2 million tonnes of CO₂ a day. In the first four months of 2023, daily emissions from those sectors were an average 30.9 million tonnes.

Emissions from the residential and transport sectors didn’t change much. This is mildly good news – it’s better than emissions going up. But these are the two smallest sectors, together accounting for only 18% of China’s emissions.

two men ride bikes

Emissions from China’s transport and residential sectors didn’t change much. Ke wei/AP

Rather, the increase was driven by emissions from China’s industrial and energy sectors. Average daily emissions from industry rose between 2019 and 2023 by 1.1 million tonnes or 11%. From energy, which includes electricity generation, they rose by 1.75 million tonnes or 14%.

Energy production from solar and wind in China did increase substantially between the two periods. But the growth was outweighed by electricity generated from fossil fuels.

file-20230704-15-117wh9.png

Graph showing energy generation mix in China in the first four months of both 2019 and 2023. National Bureau of Statistics of China

Separate data show the growth of coal production in China has accelerated. In the two years prior to the pandemic, coal production variously fell or only grew slightly. But coal production grew during the pandemic, and this has continued. In the year to April 2023, coal production increased by about 5%.

While coal’s share of energy consumption fell substantially from 2007 to 2019, it has changed little since then. That’s mainly because energy use is growing fastest in the electricity sector, which remains dominated by coal.

The global picture​

Emissions in many developed countries have fallen in recent years due to government policies, slow economic growth, and the shift from coal to natural gas.

Developing nations increasingly dominate global emissions. China might be expected to be a leader on the clean energy shift among developing countries – in part because it produces much less oil than it consumes. That means its energy supply is not secure, giving it an incentive to find alternative sources of power.

There’s another reason why China should be a trailblazer on emissions reduction. China is the world’s biggest emitter – so a percentage reduction in emissions there leads to far fewer tonnes of CO₂ in the atmosphere than if a smaller country reduced emissions by the same percentage. And, partly because China’s population and economy are so big, it stands to benefit more than any country in the world from a more stable global climate.

But as we’ve outlined, China’s trajectory is by no means world-leading. What’s more, moves by China on the international stage suggest it’s becoming less cooperative in climate negotiations than in recent years. We saw this at the COP27 global climate conference in Egypt late last year, when China did not join a pledge to curb methane emissions and refused to provide financial support to developing nations vulnerable to climate change.

The potential for cooperation on climate policy is being reduced further by ongoing tensions between China and the United States. All this serves to cast doubt on China following through on its Paris pledges – and certainly, on any chance its emissions will peak in the next two years.

 
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We now need YouTube videos of white foreigners visiting China, giving first hand experience of how China’s carbon omission is less than the entire world combined. I’ll be waiting for those videos in near future.
 
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In term of carbon emission per capita, China as clean as Japan and Germany.

Indonesia is even less, India is even less than Indonesia, and Pakistan is even more less than India.

But this is nothing to be proud of.

It means we are poor.
 
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Climate & Other elements vital for our planets sustainability, where the earth is fast moving towards a point of no return, is not a dick measuring contest anymore... Who did what in the past, who is doing what currently and who's per capita emissions are higher are of no consequence now. The below was 2022 status of planetary boundaries.

1689054161725.png



The earth has migrated to Anthropocene epoch from Holocene, thanks to the exploding dominant specie (humans) and their activities in the last 200 years. Apart from reversal of ozone layer depletion in the 90s, governments around the world has failed to arrest or slow down the rapid march towards tipping points of these elements. Next 10 years will decide human survival vs. Mass extinction on this planet.

Other-wise make few millions so that you & your loved ones can join Elon Musk in his Mars colonies.

Watch 2021 David Attenborough documentary Breaking Boundaries.. https://en.wikipedia.org/wiki/Breaking_Boundaries
 
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We now need YouTube videos of white foreigners visiting China, giving first hand experience of how China’s carbon omission is less than the entire world combined. I’ll be waiting for those videos in near future.
@beijingwalker we're all waiting for you and your CCP propaganda...
 
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@beijingwalker we're all waiting for you and your CCP propaganda...
No one cares about this stupid thread,


ENERGY

Where are Clean Energy Technologies Manufactured in the World?​

March 28, 2023
By Selin Oğuz
Where are Clean Energy Technologies Manufactured?


Visualizing Where Clean Energy Technologies Are Manufactured​

This was originally posted on Elements. Sign up to the free mailing list to get beautiful visualizations on natural resource megatrends in your email every week.
When looking at where clean energy technologies and their components are made, one thing is very clear: China dominates the industry.

The country, along with the rest of the Asia Pacific region, accounts for approximately 75% of global manufacturing capacity across seven clean energy technologies.

Based on the IEA’s 2023 Energy Technology Perspectives report, the visualization above breaks down global manufacturing capacity by region for mass-manufactured clean energy technologies, including onshore and offshore wind, solar photovoltaic (PV) systems, electric vehicles (EVs), fuel cell trucks, heat pumps, and electrolyzers.

The State of Global Manufacturing Capacity​

Manufacturing capacity refers to the maximum amount of goods or products a facility can produce within a specific period. It is determined by several factors, including:
  • The size of the manufacturing facility
  • The number of machines or production lines available
  • The skill level of the workforce
  • The availability of raw materials
According to the IEA, the global manufacturing capacity for clean energy technologies may periodically exceed short-term production needs. Currently, this is true especially for EV batteries, fuel cell trucks, and electrolyzers. For example, while only 900 fuel cell trucks were sold globally in 2021, the aggregate self-reported capacity by manufacturers was 14,000 trucks.

With that said, there still needs to be a significant increase in manufacturing capacity in the coming decades if demand aligns with the IEA’s 2050 net-zero emissions scenario. Such developments require investments in new equipment and technology, developing the clean energy workforce, access to raw and refined materials, and optimizing production processes to improve efficiency.

What Gives China the Advantage?​

Of the above clean energy technologies and their components, China averages 65% of global manufacturing capacity. For certain components, like solar PV wafers, this percentage is as high as 96%.
Here’s a breakdown of China’s manufacturing capacity per clean energy technology.

微信图片_20230406164056.png



So, what gives China this advantage in the clean energy technology sector? According to the IEA report, the answer lies in a combination of factors:

The mixture of these factors has allowed China to capture a significant share of the global market for clean technologies while driving down the cost of clean energy worldwide.

As the market for low-emission solutions expands, China’s dominance in the sector will likely continue in the coming years and have notable implications for the global energy and emission landscape.

 
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No one cares about this stupid thread,


ENERGY

Where are Clean Energy Technologies Manufactured in the World?​

March 28, 2023
By Selin Oğuz
Where are Clean Energy Technologies Manufactured?


Visualizing Where Clean Energy Technologies Are Manufactured​

This was originally posted on Elements. Sign up to the free mailing list to get beautiful visualizations on natural resource megatrends in your email every week.
When looking at where clean energy technologies and their components are made, one thing is very clear: China dominates the industry.

The country, along with the rest of the Asia Pacific region, accounts for approximately 75% of global manufacturing capacity across seven clean energy technologies.

Based on the IEA’s 2023 Energy Technology Perspectives report, the visualization above breaks down global manufacturing capacity by region for mass-manufactured clean energy technologies, including onshore and offshore wind, solar photovoltaic (PV) systems, electric vehicles (EVs), fuel cell trucks, heat pumps, and electrolyzers.

The State of Global Manufacturing Capacity​

Manufacturing capacity refers to the maximum amount of goods or products a facility can produce within a specific period. It is determined by several factors, including:
  • The size of the manufacturing facility
  • The number of machines or production lines available
  • The skill level of the workforce
  • The availability of raw materials
According to the IEA, the global manufacturing capacity for clean energy technologies may periodically exceed short-term production needs. Currently, this is true especially for EV batteries, fuel cell trucks, and electrolyzers. For example, while only 900 fuel cell trucks were sold globally in 2021, the aggregate self-reported capacity by manufacturers was 14,000 trucks.

With that said, there still needs to be a significant increase in manufacturing capacity in the coming decades if demand aligns with the IEA’s 2050 net-zero emissions scenario. Such developments require investments in new equipment and technology, developing the clean energy workforce, access to raw and refined materials, and optimizing production processes to improve efficiency.

What Gives China the Advantage?​

Of the above clean energy technologies and their components, China averages 65% of global manufacturing capacity. For certain components, like solar PV wafers, this percentage is as high as 96%.
Here’s a breakdown of China’s manufacturing capacity per clean energy technology.

微信图片_20230406164056.png



So, what gives China this advantage in the clean energy technology sector? According to the IEA report, the answer lies in a combination of factors:

The mixture of these factors has allowed China to capture a significant share of the global market for clean technologies while driving down the cost of clean energy worldwide.

As the market for low-emission solutions expands, China’s dominance in the sector will likely continue in the coming years and have notable implications for the global energy and emission landscape.


This is absolutely impressive buddy. Thanks for sharing.

Now where are the YouTube videos starring white actors that prove China’s carbon emissions is less than the entire world combined? Are they under post-production stage at the moment?
 
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15 NOVEMBER 2022 - 3:19 PM

How China is leading the world in clean energy

China is embracing a new era of clean energy through innovative construction and systemic changes to its energy infrastructure.

How-China-is-Ahead-in-Renewable-Energy_1.jpg

Since the signing of the Paris Climate Agreement in 2015, countries around the world have been encouraging the use of clean energy and the reduction in the use of fossil fuels to protect the natural environment, which has resulted in significant growth in the generation of clean energy.

In 2021, solar, wind and other clean-energy sources accounted for 38 percent of global electricity generation and, for the first time, wind turbines and solar panels generated 10 percent of the total amount of the world’s energy, marking our planet’s gradual entry into an exciting new energy era.

China is now the world’s largest investor in clean energy, however, its rapid growth over the past four decades has also resulted in it becoming its largest consumer of energy, too.
As the nation races toward its carbon peaking (2030) and carbon neutrality (2060) goals, meeting growing domestic energy demand while reducing carbon emissions and dependence on fossil fuels has become a top priority.

China is investing vast resources into the development of clean energy, building groundbreaking facilities with new technologies and constructing clean, low carbon, safe and energy efficient systems to actively move towards a more sustainable system.

The world’s largest clean energy corridor​

How-China-is-Ahead-in-Renewable-Energy_2-1100x733.png

When all its units are put into operation in July 2022, Baihetan Dam, together with the Three Gorges Dam and the Gezhouba, Wudongde, Xiluodu, and Xiangjiaba hydropower stations on the Jinsha River, will constitute the world’s largest clean energy corridor.

Baihetan Dam is undoubtedly one of the most significant projects in China in recent years. It is the most technically difficult hydropower project in the world today and equipped with the world’s largest million-kilowatt capacity hydropower generator unit.

The dam has a maximum dam height of 289 meters and can withstand a total water thrust of 16.5 million metric tons. It is also the first dam in the world to have the entire dam section cast with low-heat cement, which significantly reduces the risk of cracks in the concrete structure and enhances safety.

During the concrete pouring process, the engineering team buried tens of thousands of monitoring instruments inside the dam and used the real-time judgments of a smart construction platform to remotely adjust the temperature of the concrete, creating this groundbreaking “seamless” dam.

The result is that for every day that Baihetan’s 16 hydropower generators generate electricity, they can provide 160,000 households with electricity for a year. When fully operational, their average annual power generation will exceed 300 billion kilowatts, which is equivalent to a yearly reduction of 249.6 million metric tons of carbon dioxide emissions.

Baihetan Dam also contains China’s first wholly self-designed and manufactured million-watt-class hydropower generator set, the completion of which represents a significant breakthrough in high-end equipment manufacturing in China.

The “Blue Sea” in the Gobi Desert​

How-China-is-Ahead-in-Renewable-Energy_3-1100x733.png

In addition to traditional hydropower, photovoltaics is also a new and important source of clean energy.

In Talatan, which is located in Gonghe County, Hainan Tibetan Autonomous Prefecture at Qinghai Province, untouched and barren land, which is nearly 3,000 meters above sea level, is covered by a vast expanse of photovoltaic panels, forming a magnificent “blue sea” – the Qinghai Talatan Photovoltaic Power Station.

The Talatan Photovoltaic Park, which has a total installed capacity of more than 9,000 megawatts and an average annual power generation of 9.6 billion kilowatts, is the world’s largest cluster of centralized photovoltaic power plants.

Thanks to its high altitude, the sunlight radiation in Talatan is intense. The area receives an average of 1,600 hours of sunshine per year, providing a unique advantage for the development of photovoltaic power generation.

During the construction process, the team took a series of innovative measures, such as establishing an off-grid microgrid in the form of photovoltaics containing storage batteries, in order to ensure continuous power supply during the set-up of the sub-array. This has become the new model for the development of green industrial parks.

The Qinghai Talatan Photovoltaic Power Station, for which construction began in 2012, has a total area of 609.6 square kilometers, which is equivalent to the land area of Singapore. It is the largest photovoltaic power base in China and provides an endless supply of clean energy to thousands of households.

Compared to Western countries, China is actually a newcomer to the photovoltaic industry, but in just over a decade, it has rapidly developed into a world leader in solar power generation.

It has also achieved a series of accomplishments, such as having the world’s largest photovoltaic power generation industry chain cluster, the largest application market, being the country with the largest investment in clean energy, having the most inventions and application patents and being the largest product exporter.

At the application level, photovoltaic electricity prices in China have also fallen by more than 85 percent over the past decade, making it the cheapest clean energy source in the world.

Million-kilowatt offshore wind farms​

How-China-is-Ahead-in-Renewable-Energy_4-1100x733.png

China’s development of wind power has seen remarkable results in recent years, with the largest installed capacity in the world and a steadily increasing share of electricity generation, which has also resulted in the rapid reduction in costs.

As of 2022, China has ranked number one for 10 consecutive years in intellectual property competitiveness in offshore wind power and next-generation solar technology. The country has also become the world’s largest wind power equipment manufacturing base.

Offshore wind power is another major force in China’s clean energy development strategy. It relies on the abundance of wind power resources in the country’s ocean area: 18,000 kilometers of coastline and offshore exploitable wind power resources of up to 750 million kilowatts.

In recent years, one wind farm facility that has attracted a great deal of attention is China’s first million-kilowatt offshore wind farm – the Three Gorges Yangjiang Shaba Offshore Wind Farm.

As of March 2022, it has safely produced a total of one billion kilowatts of clean electricity, replacing 307,600 metric tons of standard coal and reducing carbon dioxide emissions by 840,000 metric tons, which is equivalent to planting 3,309 hectares of broadleaf forests.

The Three Gorges Yangjiang Shaba Offshore Wind Farm is the first offshore wind power project invested in by the China Three Gorges Corporation and is located near Shaba Town in Guangdong Province. The offshore wind farm has a total installed capacity of two million kilowatts, 315 offshore wind turbines, four offshore booster stations, and almost 1,000 kilometers of submarine cables.

It can provide about 5.6 billion kilowatts of clean electricity to the Guangdong-Hong Kong-Macao Greater Bay Area each year and meet the annual electricity consumption demands of about 2.4 million households.

This offshore wind farm also set a number of “national bests” such as China’s largest single capacity offshore booster station and China’s lightest offshore booster station for the same capacity.

It also boasts the world’s first typhoon-resistant floating offshore wind turbines, accumulating precious and incomparable experience for exploring construction technology solutions more suitable for the construction of offshore wind farms in the South China Sea.

The new energy era begins​

Countries with the most billionairesCountries with the most billionaires

As the world’s largest producer and consumer of energy, China’s clean energy sector is developing rapidly, and both wind power and photovoltaics have a competitive advantage globally as technology becomes increasingly sophisticated. And although it has grown by leaps and bounds over the past few decades, it still has a long way to go to meet its carbon peaking and carbon neutrality goals.

In 2021, China’s wind and photovoltaic power generation accounted for about 11.5 percent of society’s electricity consumption, compared to the United Kingdom’s 40 percent, which shows that there is still much room for improvement to maximize the development and utilization of clean energy and meet the needs of society.

In addition to innovative hardware construction, China has also introduced various initiatives to promote its carbon peaking and carbon neutrality goals from a social context, including improving the energy efficiency of green building systems.

Between 2015 and 2019, China built over 19.8 billion square meters of energy efficient buildings, accounting for 56 percent of an existing urban area, and this ratio is scheduled to rise to 70 percent this year alone.

The country also improved the energy efficiency of buildings by renovating energy supplies and installing photovoltaic roofs, biomass energy supplies and electric heating and cooking appliances.

The number of new energy vehicles in China has been growing at a rapid pace in recent years, and the country is already a global leader in new energy vehicle ownership. China also plans for the majority of new vehicles sold in 2035 to be electric vehicles.

While promoting the development of the new energy vehicle industry, China has also optimized and adjusted its transportation structure, forming freight based on railroads and water transport instead of road transport. These medium and long-distance transport patterns will help the green development of the transport system.

Green, clean energy plays an important role in improving energy structures, protecting the environment, achieving sustainable economic and social development and meeting carbon peaking and carbon neutrality goals.

In the process of promoting clean energy and low carbonization, China has been accelerating its pace, building the world’s largest clean power generation system, becoming an important force in promoting global clean energy development and committing to making green, affordable electricity truly accessible to millions of households.

 
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