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Emission Trading Schemes in China and the European Union, Achievements and Challenges

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ABSTRACT

A comparison of the European Union (EU) and China’s emission trading schemes (ETS) is made and we analyze a field survey concerning the pilot ETS in China. The comparison shows that EU’s carbon market is relative mature, given that EU has adopted more flexible and market based measures for its ETS. In China there are more governmental interventions to make the ETS work, but there is lack of a legal foundation and market measures for China’s ETS. The survey yielded information on the attitudes of the participants towards ETS and the linkages between carbon price and the actions by ETS participants to diminish carbon emissions. The survey results show that most participants are willing to participate in ETS and that the ETS does have positive impact on the reduction of CO2 emission. However China is not yet well prepared to move from seven small pilot ETS to a nationwide ETS, since relevant laws and regulations are not well formulated. This also explains why there are much governmental interventions for the 7 pilot ETS in China. The survey result shows that the existing carbon price in China is too low to mobilise industrial investment in abatement technology.

1. Introduction

The Chinese president has made it clear during the Paris climate change conference in December 2015 that China’s CO2 emission will decrease (reach its peak) by 2030 in absolute term and will decrease by 18% by 2010 in relative terms. One suggestion to achieve these goals is to create an integrated national CO2 emission trading system (ETS), which is to be the biggest ETS in the world, bigger than the ETS of the European Union (EU). Before launching the nationwide ETS, China has experimented with ETSs in seven cities and provinces since 2013. The question is whether three years after creating a relatively small market for CO2 emissions in China (in terms of quantities traded and the number of participants), can the market become a national one in just two or three years?

Increased CO2 emissions contribute to climate change. Carbon emission trading aims to promote the control of one type of greenhouse gas (GHG) emission, CO2. Use is made of CO2 emission rights trading to assure efficient investments in reduction of CO2. If the cost of investments are higher than the cost of CO2emission trading rights preference will be given to buying these rights. The idea behind the system is however, that the market price for CO2 emission trading rights is so high that efficient investments in CO2 emission reduction are made if that is cheaper than buying the rights, which would often be the case in developing countries where very few investments in cleaner production have been made so far. This implies that if the CO2 emission trading rights are cheap it is convenient for the enterprise to buy them and to refrain from environmental investments.

In this paper we compare the key building blocks of both EU ETS and China’s seven pilot ETSs and analyse the weak points of both EU ETS and China ETS [1] . Which factors determine whether this market will be a success in terms of handling substantial amounts of CO2 emissions rights and at a reasonable price? We conducted a field survey of Beijing pilot ETS in the 2nd half of 2016, while China was preparing the nationwide ETS. This survey was distributed to 452 participants of Beijing ETS and 378 have replied the survey. The participants are selected, based on their historical annual CO2 emission of 10.000 tons. Those selected 452 participants are compulsorily involved in the existing Beijing ETS. The survey includes two parts. Part 1 aims at understanding whether participants are prepared already in participating in ETS through evaluating their attitudes towards the ETS. Part 2 aims at answering a key question of ETS: what is the price of CO2 at which investors prefer to invest in abatement technology?

We have extensive information on China [2] and the EU [3] . The Asian Development Bank (ADB) published a very interesting report comparing emission trading schemes in Asia, using the experience of China, Kazakhstan, India, Indonesia, Thailand and Vietnam. Our objective is to come up with recommendations for China how to integrate the national CO2 market, based on experiences elsewhere in the world.

2. A Systematic Comparison between EU ETS and China ETS

The EU ETS is the earliest carbon market in the world. It has been implemented in three phases and it is now in the preparation of the fourth phase. China lunched 7 small pilot carbon markets in two provinces of Guangdong and Hubei and five cities of Beijing, Shanghai, Tianjin, Chongqing and Shenzhen in 2013 [4] . The EU ETS has been the key reference for China’s seven pilot carbon markets for designing their ETS system and thus it is of great interest to compare the EU and Chinese ETS in a systematic way and the aim is to identify key factors for China developing an integrated one national ETS by learning lessons from EU ETS and China’s seven pilot ETS.

ADB [2] characterizes each ETS in 10 building blocks that could explain an ETS in a systematic way. There are similarities in some building blocks and, in this paper we applied the most important six building blocks for comparing the EU-China ETS: coverage, targets and caps, allocation system, monitoring and verification, flexible measures and measures to manage market supply and the price (Table 1).

The EU has the largest ETS in the world at the moment with a volume of 1.7 - 2.0 billion tons of CO2eq. The EU ETS covers all GHGs and about 11,000 installations are involved. China’s seven pilot ETSs and its future national ETS will only cover CO2, mainly due to the fact that no data are available concerning other GHGs. In addition, China is not yet prepared for trading of non GHGs, given to lack of methodology and historical data collected. China launched its national ETS and it is going to be the largest ETS in the world with the volume of 3 - 4 billion tons of CO2, which will be double the EU carbon market. The main difference in the type of participants between EU and China is that, in the EU these are installations and all GHGs and in China companies and CO2 only. The main reason is that EU has the statistics on GHG emissions at the installation level, however China has only as the data on company level.

With regard to the difference in targets and caps, the EU sets absolute targets and caps in tons of GHGs. China sets up relative target in tons of CO2 per GDP and accordingly calculating the cap in tons of CO2. The main reason is that the EU has reached its peak already and GHG emissions are decreasing. China, however, has not yet reached its peak and it is estimated that China’s peak of CO2 emission will be around 2030. Thus the absolute amount of CO2 emission is still increasing in China and thus it is difficult to include the absolute amount of GHG in the defining targets.

China learns from EU experience in allocating allowances. Given the disadvantage of free allocations of trading rights in the EU in phase I of the ETS, China adopts a combination of free allocation and auctioning for its seven pilot stage systems and the system will be adopted in the future national ETS as well [5] . However, it seems that EU has much more rights allocated by auctioning. In phase III, 43% of the allowances are auctioned and in the power sector everything is auctioned in the EU. In China, however, only 5% - 10% of the allowances is auctioned in the national ETS, which is compared to the level of the EU ETS in phase II. The low percentage of allowances auctioned can be explained by the fact that both China’s national and local governments are worrying that a higher level of auctioning may have negative impacts on industrial competitiveness in the

Table 1. Comparison of the European Union and China’s emission trading scheme.

Source: [2] [3] . 1However, from 2004, no nuclear, land-use changes, forestry and large hydro projects were included; from 2010 no HFC-23 and N2O industrial gas project were permitted.

short period.

The EU and China have suggested quite similar monitoring, reporting and verification (MRV) systems. However, the numbers of third parties who are qualified for conducting MRV are quite limited and the lack of MRV capacity may be one of barriers for China implementing national ETS.

It seems that EU is allowing more flexible measures, allowing for example banking and borrowing, credit mechanisms or offsets and linking. This is due to that EU has more than 10 years’ experience with its ETS and China is still at an initial stage of its ETS. China’s strategy is learning by doing while promoting the ETS and it is expected that more flexible measures will be adopted in the future in China.

The EU takes more measures to manage market supply and price and those measures are market-based. There are more government interventions in the ETS market in China. As an example, governments of Beijing and Tianjin buy-back the allowances when the carbon prices are is getting lower for stabilization of the market. We argue that both Chinese national and local governments will play a more active role in China’s future national ETS. Improving sustainability of ETS will be an issue in China, since an ETS is a market instrument and the market should play the dominant role.

2.1. The Envisaged New System in China

China launched its national unified ETS at the end of 2017. The national ETS concerns about 7000 companies with an annual energy consumption of 10.000 tce. In its design stage, eight sectors will be involved in China’s national ETS, such as petrochemical, chemical, building materials, iron and steel, ferrous metals, paper-making, power station and aviation. Given to the short preparations, however, the national ETS has involved only the sector of power generations. It is estimated that 50% of total CO2 emissions will be included in China’s ETS. The China Certified Emission Reduction (CCER) can be traded. In the future, China national ETS will deal with between 3000 - 5000 Mt CO2 [6] .

2.2. Weak Points in the Functioning of the ETS in the EU and in China

The following Table 2 shows the weak points of EU’s and China’s pilot ETS.

2.3. Oversupply and Consequence of Market Response

The EU ETS has seen oversupply of allowances in each of its three phases to date, but the cause and impact has been different for each phase. In the 3 years of phase I, the oversupply of allowances was the result of a number of factors. Firstly, member states generally lacked verified baseline emissions data when establishing their caps in their national allocation plans (NAPs), and baseline emissions were generally overstated. Secondly, there was not an emission reduction target for member states in the EU; at that time, caps were largely established against a business-as-usual basis with limited ambition. Thirdly, the decentralized approach to cap setting meant that member states had an incentive and flexibility to seek to protect their own industries, and retrospectively, allocations appeared generous relative to emissions. In phase II the caps were still developed through the member state NAPs (as in phase I); although there was

Table 2. Weak points of EU’s and China’s pilot ETS.

Source: [2] [3] .

more robust application of the principles for cap setting by the European Commission, which had the responsibility to approve NAPs. However, the economic crisis caused a downturn in industrial activity and consequently reduced emissions, with large surpluses for each year after 2008, resulting in the accumulation of a large surplus by the end of Phase II. The surpluses continue well into phase III, with the economic slowdown continuing to contribute to the oversupply of allowances relative to emissions.

These surpluses remove the need for abatement to meet the caps, and naturally the market has responded with a very low or zero-carbon price. Figure 1 shows the market responding on the oversupply of allowance. Phase I carbon prices peaked at over €30 per metric ton in 2007 influenced by the rising gas prices and fell to nearly zero by the end of the same year, because surpluses could not be carried over into phase II. In phase II a more ambitious cap taking into account verified baselines and more harmonized and stringent national cap setting processes lead to a strong initial carbon price, peaking at €30 per Mt CO2 in July 2008, but again prices fell to much lower levels as the oversupply position became clearer [7] .

China has learnt from the experience of EU ETS on oversupply of allowance and has taken the following measures to avoiding oversupply and to stabilize the carbon price.

1) Applying multi-approaches of grandfathering and benchmarking for baseline assessment and adopting centralized approach to cap setting in the seven pilot ETSs;

2) More governmental intervention to the EST. Local government in the 7 pilot ETS have reserved certain amount of allowances that will be used for stabilizing the market;

3) Setting more ambitious target and combing free allocations and auctions.

Source: [2] .

Figure 1. Evolution of European Union Allowance Prices from 2005-2015.

Source: Carbon K-Line http://k.tanjiaoyi.com/, consulted 19-9-2016.

Figure 2. Evolution of China’s 7 pilot ETSs Allowance Prices from 2005-2015.

During the three years of 7 pilot ETS (2014-2016), China has also encountered a slightly more economic slowdown, which has limited impacts on ETS. Thus the carbon price in the 7 pilot ETS in China was quite stabilized, as compared to the EU ETS. Figure 2 shows that there are huge differences between the prices of trading at earlier emission trading schemes stage in the seven pilot emission trading schemes. Among them, prices in Shenzhen were the highest and the prices in Hubei are the lowest. After the initial stage of emission trading schemes, differences in prices among seven pilot ETSs is getting smaller and smaller.

3. Attitudes of Participants towards ETS: A Survey in Beijing ETS

Attitudes of participants towards ETS are assessed based on the following seven questions. Each participant is asked to answer these seven questions by scoring 0 (bad) - 10 (best). The surveys have been distributed to 452 participants in Beijing and 378 replies have been collected. In addition to the survey, we have interviewed 12 participants for knowing more about their answers behind. The survey result is presented in Table 3.

Table 3 indicates that most participants are really willing to participate in ETS and they consider the ETS could stimulate participants to reduce CO2 emissions. The high willingness is in line with ETS literature, which points to that ETS as a market instrument provides flexibility of either by taking low carbon actions or buying allowances for participants to comply with the targets. Table 2 shows that China is not yet sufficiently prepared to move from the seven small pilot ETS to a nationwide ETS, since the relevant laws and regulations are not in place. This can also explain low score in governmental intervention, given to the fact that there are too much governmental interventions in the existing pilot

Table 3. Attitudes of participants towards the existing emission trading scheme in Beijing (N = 378).

Source: primary data, 2016.

ETS. In addition, internal capacity building of participants is necessary and needed for future nationwide ETS of China.

4. Impact of China’s ETS on Low-Carbon Investment: A Survey in Beijing ETS

A CO2 emission trading system is one of the carbon pricing instruments besides taxes, trading and crediting [8] which aims at stimulating low carbon development at the most cost-effective way. EU experiences show that over-allocation of allowance may result in low carbon prices and may damage the ETS. The problems associated with over-allocation, low carbon prices, and price volatility in the existing systems demonstrate that both systems lack the flexibility to respond to unexpected changes and events and fail to provide long-term consistent incentives for low-carbon investment. By learning from experience of the EU ETS, it is crucial for China set up a fair and ambitious cap that may avoid lower carbon price and stimulate low-carbon investment. This paper has conducted a survey in Beijing for asking about 452 participants that are being involved in the existing Beijing pilot ETS (one of the China’s seven pilot ETSs). The survey aimed at building up linkages between low-carbon actions/investments and carbon price. Among the 452 participants in Beijing pilot ETS, 378 has replied and most of them (more than 80%) are electricity and heat production companies and key industrial energy-intensive companies [9] . The survey included the following five questions:

1) ETS will have a positive effect on awareness and you will not take any investment on low-carbon actions, when the carbon price is less than ___ Chinese Yuan.

2) You will take housekeeping actions with very low low-carbon investment, when the carbon price is more than ___ Chinese Yuan.

3) You will take low-carbon investment with payback time (PBT) of less than 2 years, when the carbon price is more than ___ Chinese Yuan.

4) You will take low-carbon investment with payback time (PBT) of 3 - 5 years, when the carbon price is more than ___ Chinese Yuan.

5) You will take high low-carbon investment on R&D, when the carbon price is more than ___ Chinese Yuan.

The following Figure 3 shows the survey results:

Figure 3 shows that ETS will only contribute to carbon awareness raising when the carbon price is less than 14.7 Chinese Yuan per ton CO2.When the carbon price is between 27.3 - 45.8 Chinese Yuan per ton CO2, ETS will stimulate low-carbon actions/investment on housekeeping and investment of less than 2 years PBT. ETS will contribute to low-carbon investment (middle term and long term investment) when the carbon price is more than 88.6 Chinese Yuan per ton CO2. High investment on low-carbon R&D could be stimulated by ETS only if the carbon price is more than 220.6 Chinese Yuan per ton CO2. These survey results are in line with the estimation of China National development and Reform Commission (NDRC) who is the China central government in charge of carbon and climate issues [10] . Jiang [11] from the Department of Climate of NDRC estimates that CO2 prices in China’s ETS may reach 240 Chinese Yuan per ton in 2020 and then the ETS will really play crucial role in mobilising low-carbon R & D and investing abatement technologies.

China launched a unified national ETS in 2017, and it is estimated that the price per ton of CO2 will be 30 - 40 Chinese Yuan. Based on the survey mentioned-above, the price of 30 - 40 Chinese Yuan ton may stimulate participants’ awareness raising about carbon emissions, while for taking housekeeping actions and conducting low low-carbon investment with short pay back times (PBT less than 2 years) the price has to be higher. The current prices have very limited contribution to low-carbon R&D and to investments in abatement technologies [12] [13] .

Source: Primary data, 2016.

Figure 3. Carbon price Vs low-carbon actions (N = 378).

5. Conclusions

There are many differences between EU ETS and China’s 7 pilot ETSs. It seems that carbon market is relatively mature in EU, while China’s carbon market is still in a very early stage of development. Survey findings reported in this paper indicate that there is too much governmental intervention in the ETS and there is lack of flexible and effective measures to manage market supply and price in China. Incomplete policy framing and lack of legal foundations are also barriers for China moving from small pilots to a nationwide ETS.

The EU ETS covers all GHGs and more than 80% of emissions, while China’s future nationwide ETS will only cover CO2 and half of its national emission. Still, China is going to be the largest carbon market by replacing EU market in 2018. The EU is facing challenges of member states with quite different economic scale and industrial development and such differences have created many barriers for the effective performance of EU ETS. China is also facing challenges of differences of economic scale and industrialization level between eastern China and western China [14] .

Free allocation and oversupply of allowances have been the key factor for very lower carbon prices in the EU ETS. Both the EU and China are practicing low carbon-price that is a threat to the functioning of ETS. Level and stabilization of carbon price are crucial for well-functioning of ETS. China’s carbon price in the future nationwide ETS will fall to 25 - 45 Chinese Yuan per ton, which may contribute to low-carbon actions of housekeeping and low-investment with short PBT, based on the field survey of this article. However, after 2020, when China sets up more high ambitions, the carbon price will increase and then ETS will play a real role in stimulating low-carbon research & development.

6. Recommendations

Practices of both EU ETS and China’s 7 pilot ETSs have created the need for improving existing emissions trading markets as well as the need to learn lessons from the strategic development of future markets. It is recommended that China’s national ETS should set up a long term ambitious caps to create constant demand on emission reduction, and in the meanwhile setting up instruments for dealing with unexpected changes and uncertainties. Strong ambition is critical to ensure proper functioning of an ETS. Avoiding over allocation of allowances is the key to establishing net market demand and a strong carbon price. Multi-approach baseline assessments are also crucial and the baseline emissions must be cross-checked and verified. Linking ETS and low-carbon initiatives is necessary and thus it is recommended that China’s future ETS should set up specific funds to support low-carbon innovations. The EU’s two funds of Innovation Fund and Modernisation Funds are good examples to learn from for China.

Conflicts of Interest

The authors declare no conflicts of interest.

Cite this paper

Zhang, M. , Liu, Z. , Jin, W. and van Dijk, M. (2018) Emission Trading Schemes in China and the European Union, Achievements and Challenges. Low Carbon Economy, 9, 33-44. doi: 10.4236/lce.2018.91003.

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