ESIE 2018 – Who Should Foot the Bill for Energy Storage? An Immature Market Mechanism Remains the Largest Obstacle to Energy Storage Proliferation

Author: Deng Huiping        China Electric Power News

挑选-5.jpg

It has been over a year since the release of the “Guiding Opinions on Promoting Energy Storage Technology and Industry Development,” and within the New Energy industry, the lack of a mature market mechanism remains the major factor inhibiting the spread of energy storage.  The market mechanism described in the “Guiding Opinions” – “payment according to effectiveness, with the beneficiary covering the cost” is one that still requires ongoing support and development.

Who Should Benefit? A Fierce Debate

Energy storage is a critical component to an “intelligent” grid and an energy system dominated by renewables.  Energy storage plays an important role in the stabilization of renewable energy, consumption of clean energy sources, participation in peak shaving and frequency regulation, ensuring grid safety and stability, lowering grid infrastructure costs, and more.  However, due to high equipment costs and debates over who should reap the benefits of energy storage, the development of what should be a very popular component to the energy system has instead been slow moving.

Some countries with developed power markets have seen the competitive use of frequency regulation, leading to its widespread applications.  Amongst China’s thermal power plants, energy storage as a part of peak shaving, frequency regulation, and other ancillary services has already begun to see some acceptance from the market.  The addition of energy storage equipment to thermal power plants allows for more accurate, speedy, and effective peak shaving and frequency regulation response, while also lowering the cost of the services and generating a profit for the plant. The spread of energy storage to thermal power plants has therefore been a relatively smooth process, though applications have still been few and of small scales.  The reason for this slow progress has been the lack of enthusiasm amongst electricity generators, the grid, and others involved in the power system to invest in New Energy storage equipment due to the continuing debate over who should receive the profits from energy storage. 

During a presentation at ESIE 2018, China Energy Storage Alliance Chief Supervisor Zhang Jing noted that New Energy power generators feel that because energy storage can balance electricity generation, lower off-peak generation, ensure grid safety and stability, and lower investment costs for infrastructure, therefore, the power grid should pay the cost for energy storage.  Yet grid operators feel that the price for New Energy electricity is already high enough, and since energy storage helps to promote the production of New Energy electricity, the New Energy electricity generators should naturally foot the bill for energy storage.

Jiang Liping, Vice Dean of the State Grid Energy Research Institute, stated that State Grid has never viewed power generation from New Energy sources as an independent source of power, citing lower stability and higher costs than power generated from thermal plants.  Therefore, the grid does not wish to foot the bill to install energy storage technology in New Energy generation stations, as the number one duty and responsibility should be providing stable electricity.

Although at present the price of New Energy is higher than that of thermal power, due to the large investment cost and long rate of return, many New Energy power generation plants still have a low profit margin.  In such a case, adding energy storage equipment would not be economical, and therefore there is little enthusiasm to do so.

挑选-10.jpg

The Market Mechanism Still Requires Strengthening

On the one hand, most people recognize the potential of energy storage in New Energy generation, ancillary services, microgrids, behind-the-meter applications, the energy internet, and other applications.  On the other hand, enthusiasm remains low and popularization remains difficult.  Zhang Jing stated that conquering this obstacle will require further work in strengthening energy storage market and pricing models, thereby making the value of energy storage more obvious to everyone.

Many experts share this same view.  Currently, much of the value and benefit of energy storage is still unclear. Energy storage’s value must be clarified for all stages, including generation, transmission, distribution, and usage.  An open electricity market and flexible market pricing mechanism will help promote energy storage’s commercial value.  Xie Kai, Vice Director of the Beijing Power Exchange Center, stated that strengthening the energy storage market mechanism is of utmost importance.  As he explained, in countries that have already established a complete energy storage market mechanism, the development of energy storage has been rapid.  One example from abroad is a frequency regulation compensation mechanism that shrinks the investment return for energy storage equipment from 5-8 years to 2-3 years.

In this regard, the effects of the Guiding Opinions will gradually make themselves known.  The Guiding Opinions clarifies several issues regarding energy storage, including the path for policies that encourage the development of energy storage, the identity of energy storage, the investment and management system of energy storage, and the responsibilities of energy storage demonstrations.  This gives a visible outlook for investors, helping to stimulate the market.

A representative from the National Energy Administration described plans to continue to advocate for energy storage development in four ways.  First, through improving relevant policies and mechanisms.  Second, promoting technological advancements and lowering costs. Third, through organization of energy storage demonstrations encouraging companies to innovate in technologies, business models, and large-scale applications. Fourth and finally, through the improvement of relevant standards.

ESIE 2018 Finishes its 7th Year - Highlights from the Event

ESIE 2018 Opening Ceremony

ESIE 2018 Opening Ceremony

The 7th Annual Energy Storage International Conference and Expo (ESIE 2018) opening ceremony on April 3 began with a speech by National Energy Administration Vice Director Liu Yafang emphasizing energy storage industry and technology development as key to the energy revolution. Her speech suggested four ways to advance the industry: promotion of government policies and mechanisms, increased technological innovation, launching of new demonstrations, and strengthening of industry management and services.  Vice Chairman of the China Energy Research Society Shi Yubo presented four main points of focus for the development of the energy storage industry, including the building of a policy mechanism for energy storage, increasing the participation of energy storage in the electricity market, increasing innovations in energy storage technology, and increases in project demonstrations and dissemination of information on energy storage. Tsinghua University Professor and former State Council Member Wu Zongxin, Chinese Academy of Sciences International Cooperation Department Director Cao Jinghua, and CNESA Chairman and China Energy Research Society Committee Chair Chen Haisheng also delivered welcome addresses.  Chinese Academy of Sciences Scholar and China Electric Power Research Institute Honorary President Zhou Xiaoxin delivered a keynote speech entitled “Development Prospects for China’s New Generation of Energy Systems.”  Chinese Academy of Engineering Scholar and Chemical Defense Research Institute Researcher Yang Yusheng followed with a keynote entitled, “System Safety Issues in Large-Scale Electrochemical Energy Storage Systems.”  CCTV-Finance reporter Ping Fan served as host for the first half of the opening ceremony.

National Energy Administration Vice Director Liu Yafang Delivers the Opening Speech

National Energy Administration Vice Director Liu Yafang Delivers the Opening Speech

Tsinghua University Professor and Former State Council Member Wu Zongxin Delivers a Speech

Tsinghua University Professor and Former State Council Member Wu Zongxin Delivers a Speech

Chinese Academy of Sciences International Cooperation Department Director Cao Jinghua Delivers a Speech

Chinese Academy of Sciences International Cooperation Department Director Cao Jinghua Delivers a Speech

CNESA Chairman and China Energy Research Society Committee Chair Chen Haisheng Delivers a Speech

CNESA Chairman and China Energy Research Society Committee Chair Chen Haisheng Delivers a Speech

Vice Chairman of the China Energy Research Society Shi Yubo

Vice Chairman of the China Energy Research Society Shi Yubo

Chinese Academy of Engineering Scholar Yang Yusheng

Chinese Academy of Engineering Scholar Yang Yusheng

Chinese Academy of Sciences Scholar and China Electric Power Research Institute Honorary President Zhou Xiaoxin Delivers His Keynote Speech

Chinese Academy of Sciences Scholar and China Electric Power Research Institute Honorary President Zhou Xiaoxin Delivers His Keynote Speech

Chinese Academy of Engineering Scholar and Chemical Defense Research Institute Researcher Yang Yusheng Delivers His Keynote speech

Chinese Academy of Engineering Scholar and Chemical Defense Research Institute Researcher Yang Yusheng Delivers His Keynote speech

 “Build a Market Mechanism for Energy Storage, Create a Blueprint for Industry Development” served as the theme for this year's conference. Over 120 domestic and international speakers and over 60 exhibitors were in attendance. The conference focused on three main events—the exhibition hall, innovation competition, and conference forums. The variety of events and programs provided a platform for communication between policymakers, planners, grid managers, power companies, energy service providers, and numerous other businesses and organizations involved in energy storage.

The opening ceremony was followed by the International Innovation Competition Awards Ceremony, industry expert dialogues, and the release of CNESA’s 2018 industry white paper.  The April 3 events drew over 3000 industry guests from China, the United States, Germany, Australia, Korea, Japan, and more.

2018 International Energy Storage Innovation Competition Awards Ceremony

Following the opening ceremony speeches came the exciting announcement of the winners of the second International Energy Storage Innovation Competition.  This year’s five categories included the “2018 Top 10 Technology Innovations Prize,” “The 2018 Top 10 Applications Innovation Prize,” the “2018 Energy Storage Distinguished Individuals Award,” the “Jury Grand Prize,” and the “Team Participants Award.”  The awards honored those companies and individuals who made outstanding contributions to energy storage in 2017.  The Jury Grand Prize was awarded to BYD Motor’s 31.5MW/12.06MWh Beech Ridge frequency regulation project in West Virginia.

Winners of the 2018 Top 10 Energy Storage Technology Innovations Award

Winners of the 2018 Top 10 Energy Storage Technology Innovations Award

Winners of the 2018 Top 10 Energy Storage Applications Innovations Award

Winners of the 2018 Top 10 Energy Storage Applications Innovations Award

Winner of the Jury Grand Prize: BYD Motors’ 31.5MW/12.06MWh Beech Ridge Frequency Regulation Project in West Virginia.

Winner of the Jury Grand Prize: BYD Motors’ 31.5MW/12.06MWh Beech Ridge Frequency Regulation Project in West Virginia.

Five industry leaders were awarded the 2018 Energy Storage Distinguished Individual Award, including Birmingham University Professor and Founder and Editor-in-Chief of Energy Storage Science and Technology magazine Ding Yulong, Chinese Academy of Sciences Institute of Thermophysics Researcher Huang Xuejie, BYD Electric Power Institute Chief Engineer Zhang Zifeng, Beijing Puneng Energy President Huang Mianyan, and Beijing Ray Power CEO Mou Liufeng.

Winners of the 2018 Energy Storage Distinguished Individual Award

Winners of the 2018 Energy Storage Distinguished Individual Award

Energy Storage Industry White Paper 2018 Officially Released

The opening ceremony featured the release of CNESA’s Energy Storage Industry White Paper 2018, announced by CNESA chief supervisor Zhang Jing.  Included in the white paper is a list of the companies with the highest operational energy storage capacity for 2017.  Of these companies, Narada Power topped all lists.  According to white paper statistics, the top five technology providers for newly installed electrochemical energy storage capacity included (from highest to lowest capacity) Narada Power, Shuangdeng, Sacred Sun, ZTT, and Samsung SDI.  In terms of MW capacity, the top five energy storage system integrators (from highest to lowest capacity) included Narada Power, Sungrow-Samsung, CLOU, Shuangdeng, and ZTT. In terms of MWh generation, the top five energy storage system integrators (from highest to lowest) included Narada Power, Shuangdeng, ZTT, Sungrow-Samsung and CLOU.

China Energy Storage Alliance Chief Supervisor Zhang Jing Announces the Release of the 2018 Energy Storage Industry White Paper

China Energy Storage Alliance Chief Supervisor Zhang Jing Announces the Release of the 2018 Energy Storage Industry White Paper

Industry Leader Dialogues: New Coordinates for the Development of the Energy Storage Industry

Tsinghua University Professor of Electrical Engineering and Deputy Committee Chair of the China Energy Research Society Expert’s Committee Xia Qing hosted the “New Coordinates for the Development of China’s Energy Storage Industry” dialogue.  Distinguished industry leaders such as State Grid Electric Vehicle Service Co. Vice General Manager Que Shifeng, National Energy Administration Division of Technology Director Qi Zhixin, Beijing Power Exchange Vice Director Xie Kai, State Grid Energy Research Institute Vice Dean Jiang Liping, Sungrow Power General Manager Wu Jiamao, Chinese Academy of Sciences Institute of Physics Researcher Huang Xuejie, Narada Power President Chen Bo, and Beijing Soaring Electric Technology Co. Chairman Wang Shicheng attended the panel discussion, sharing thoughts on technological development, market needs, and policy mechanisms for the energy storage industry.  The discussion provided those in attendance with an insider look at the state of energy storage development, how market mechanisms can be created, and how local markets are expected to develop in the future.

Industry Leaders Take Part in the Expert Dialogue

Industry Leaders Take Part in the Expert Dialogue

ESIE 2018 Expo: An Exhibition of the Top Names in Energy Storage

ESIE’s three-day energy storage expo officially opened on April 2.  This year’s exhibitors included displays from upstream energy storage equipment manufacturers, systems integrators from a variety of applications, power grid representatives, testing organizations, and energy storage research institutions. Leading energy storage enterprises domestic and international set up booths, including domestic enterprises such as State Grid Electric Vehicle Co., Sungrow, Shuangdeng Group, Dynapower, Narada, Tianjin Lishen, Soaring, CLOU, BYD, ZTT, Hyperstrong, Today Energy, and more.  International enterprises and organizations such as NEC, ABB, TÜV SÜD, NGK, the India Energy Storage Alliance, and Primus Power also brought their technologies, products, and services to the expo hall.

16.jpg
17.jpg
Industry Experts and Leaders Tour the Expo Hall

Industry Experts and Leaders Tour the Expo Hall

Thank you to all the exhibitors, sponsors, and attendees who helped make ESIE 2018 a success! We will see you again next year at ESIE 2019!

ESIE2018: CNESA Releases the 2017 Chinese Energy Storage Company Capacity Rankings, Narada Power Tops the List

On April 3, the China Energy Storage Alliance kicked off the 2018 Energy Storage International Conference and Expo at the National Convention Center in Beijing.  The opening ceremony featured a presentation by China Energy Storage Alliance Chief Supervisor Zhang Jing announcing the release of CNESA’s Energy Storage Industry White Paper 2018.  This year's white paper features a list of the top five technology providers and systems integrators both domestic and international.

China Energy Storage Alliance Chief Supervisor Zhang Jing Announces the Release of the Energy Storage Industry White Paper 2018

China Energy Storage Alliance Chief Supervisor Zhang Jing Announces the Release of the Energy Storage Industry White Paper 2018

The lists rely on data provided primarily by the CNESA Global Energy Storage Project Database, as well as publicly available project information and information provided voluntarily by companies.  The lists are focused on the newly installed capacity of energy storage technology providers and systems integrators in the year 2017.

The “technology providers” category, as defined by CNESA, includes companies that provide energy storage technologies, battery modules, and battery systems.  The “systems integrators” category includes companies that are involved in the energy storage systems integration business, providing customers with a complete energy storage system.  Such products include BMS, PCS, EMS and all other components that are needed for a complete set of equipment.

China’s Energy Storage Market List

In 2017, among China’s newly added electrochemical energy storage projects, the top five technology providers with the largest new capacity included Narada Power, Shuangdeng, Sacred Sun, ZTT, and Samsung SDI.

China’s Top Technology Providers for 2017 (MWh)

China’s Top Technology Providers for 2017 (MWh)

In 2017, among China’s newly added electrochemical energy storage projects, the top five systems integrators in terms of MW capacity included (in order from greatest to least) Narada Power, Sungrow-Samsung, CLOU, Shuangdeng, and ZTT.  In terms of MWh capacity, the top five systems integrators included (in order from greatest to least) Narada Power, Shuangdeng, ZTT, Sungrow-Samsung, and CLOU.

China’s Top Systems Providers for 2017 (MW)

China’s Top Systems Providers for 2017 (MW)

China’s Top Systems Providers for 2017 (MWh)

China’s Top Systems Providers for 2017 (MWh)

From the rankings, it is clear to see that the 2017 Chinese energy storage market’s most active areas continued to be Li-ion battery and lead-acid battery manufacturers and systems integrators.  Also of note is that the companies making the lists are predominantly those that serve the role of both technology provider and systems integrator.  Of these, Narada Power stands out as the clear leader in installed capacity, sitting at the top of all three lists.  ZTT occupied the top spot in energy generation (MWh) as both technology provider and systems integrator, while Sungrow-Samsung occupied the top of the list of Li-ion battery systems integratiors in terms of power (MW) capacity.

Customer-sited Grid Integrated Energy Storage Systems Break the Ice, Bringing a Boost to China's Energy Storage Industry

night-sky-sunset-power-lines.jpg

Background

In recent years, Jiangsu Grid has experienced an increasing expansion in the gap between peak and off-peak loads, creating an urgent need for new methods to balance generation and demand.  There are two reasons for the problem. First, through the support of national and local subsidy policies, Jiangsu province’s distributed PV has seen rapid development. The intermittency and instability inherent with distributed PV power stations has caused Jiangsu Grid significant difficulty balancing demand and generation. Second, due to the increased need for electricity caused by rapid economic development, power load cycles inevitably face growing in the gaps between peak and off-peak grid loads. Although TOU policies have played an important role in load shifting, they cannot restrain the ever-widening peak and off-peak load gap.

With customer-sited energy storage beginning to take shape and its potential increasing, it has become a reliable source of generation and demand balance for the grid. According to State Grid of Jiangsu statistics, as of October 2016, Jiangsu province possessed operational and potential energy storage projects at a total capacity of 886,000 MWh.  Of this total, 16,580 MWh of storage had already been constructed, 154,250 MWh was under construction, and 715,170 MWh of storage was in negotiation. As energy storage battery costs continue to drop, the potential for future energy storage markets continues to grow.  How customer-sited storage will be used, how control of systems will be coordinated, and how the technology can be used in balancing generation and demand are all unavoidable questions that grid companies must face.

Energy storage systems possess advantages such as a quick response speed, precise load control, a short construction period, non-consumption of fossil fuels, no emissions, and other features.  At the same time, they encourage the use of renewable resources and regional T&D deferral for grid construction.  Therefore, the use of customer-sited grid integrated energy storage controlled by a unified dispatch center is a worthy method of balancing the grid.

Key Points

Recently, State Grid Jiangsu released the Customer-sited Energy Storage System Grid Integration Management Regulations (hereafter known as Regulations).  The Regulations are focused directly on the development of Jiangsu province’s customer-sited energy storage, with support for such systems as the central goal.  The Regulations focus on ensuring safety, increasing efficiency, and standardizing the division of responsibility for workers as well as the work procedure.  Below are some of the notable characteristics of the Regulations:

1.       Categorical management based on capacity

The Regulations divides customer-side energy storage in two categories.  The first category includes customer-side storage systems rated at 6MW or less connecting to the grid at 10 KV or less. The second category includes customer-side storage systems rated above 6MW connecting at 10KV, or any system connecting at 35 KV.  Equipment of both categories is required to undergo inspection by the power company before installation, and metering equipment and information collection systems must also be installed. Finally, a dispatch agreement must be created with the grid company. The difference between the two categories is that for the first category, in which capacity is rather small, a “stand back and observe” model is used, in which city/district companies will facilitate supervision of the system. Items to be monitored include the voltage, current, active power, inactive power, charge capacity, and discharge capacity of the customer-sited energy storage system.  For the second category, in which capacity is rather large, a different model of combined monitoring and control is used. City/county dispatch centers are responsible for operation and management of the energy storage equipment.

2.       Safety standards as the first step for grid integration

Customer-side energy storage systems are largely battery systems, with DC input and output, and transforming to DC/AC through the use of a converter.  Such a system is certain to cause harmonics that will affect power quality, while misuse of battery systems carries the risk of fires or explosions. To ensure the safety of the grid, the Regulations stipulate: “Connections to the grid must meet national power quality standards, and engineering design and construction must satisfy such standards as the Technology Regulation for Energy Storage Systems Connecting to the Power Grid (Q/GDW564-2010) and Battery Energy Storage Power Station Design Standards (Q/GDW11265-2014). In other words, customer-side energy storage has a fair chance to participate in the grid as long as systems meet the standards already in place for grid technology

3.       Processes, work distribution, and time limits are clearly specified

The Regulations divide grid integration of customer-sited energy storage into 5 processes: application and site surveying, engineering and construction, grid integration inspection and debugging, meter installation, and contract signing. Tasks in each stage are designated to specific units or persons. City/district company business applications managers are responsible for the acceptance of new applications, and a development and planning department are responsible for approval of grid integration plans.  Accounts managers are tasked with inspection of engineering designs for energy storage systems, with customers choosing appropriate construction companies. Accounts managers and dispatch centers of prefectural and municipal companies are responsible for acceptance and debugging of projects of varying capacity, and can provide one-time suggestions on the acceptance and verification of new grid integration proposals. City/district companies also designate a specific department to the installation of metering and data collection systems.  The Regulations defines a detailed timeframe for the completion of each stage to combat delays or procrastination.

Conclusion

State Grid Jiangsu’s Customer-sited Energy Storage System Grid Integration Management Regulations stands as China’s first regulation for customer-sited grid integration.  The policy is certain to facilitate new large-scale grid integration of customer-sited energy storage equipment, alleviating some of the demand pressure on the grid, and guaranteeing that energy storage customers will receive reasonable benefits—a win-win situation for both sides.

CNESA Storage Market Analysis – 2017 Q4

1.       The Global Market

Electrochemical Storage Projects Continue a Steady Growth

According to partial statistics provided by the China Energy Storage Alliance (CNESA) Global Energy Storage Database, at the 2017 year’s end, global energy storage projects reached a total operational scale of 175.4GW.  Pumped hydro storage occupied the largest portion of the capacity at 96%, a decrease of 1 percentage point from the previous year.  Electrochemical capacity occupied a total of 2926.6MW, or 1.7% of the total, an increase of 0.5 percentage points from the previous year. 2017 saw the installation of a total of 914.1MW of new electrochemical capacity, an increase of over 20% compared to 2016.

Q4 1.png

In comparing energy storage distribution by region, the United States saw the greatest increase in new capacity at 210.3MW. Australia saw the greatest increase in comparison to 2016, at 1277%

Q4 2.png

In comparing energy storage distribution by application, renewable integration saw the largest increase in new capacity in comparison to 2016, at 300.8MW, a 119% increase.

Q4 3.png

In comparing the distribution by technology, Li-ion batteries had the greatest installed capacity at 845.9MW, or over 90% of the total. Growth in lead-acid batteries was highest in comparison to 2016 Q4, at nearly 100%, over three times that of Li-ion batteries.

Q4 4.png

2.       The Chinese Market

Electrochemical Storage Capacity Continues to Grow Steadily

According to partial statistics provided by the CNESA Global Energy Storage Database, as of the 2017 year’s end, China achieved a total of 28.9GW of operational energy storage capacity.  Pumped hydro storage occupied the greatest percentage of storage capacity, at nearly 99%.  Electrochemical storage capacity occupied 389.8MW, or 1.3% of the total, an increase of 0.2 percentage points since the previous year.  In 2017, China put into operation a total of 121MW of new electrochemical capacity, an over 15% increase compared to 2016.

In comparing China’s energy storage distribution by region, the majority of operational capacity was concentrated in east, north, south, and northwest China. Jiangsu province possessed the largest scale of operational capacity at nearly 50MW.

Q4 6.png

In comparing distribution by application, renewable integration, ancillary services, and behind-the-meter energy storage occupied the entirety of all new capacity.  Of these, behind-the-meter applications were of the largest scale, at over 70MW.  Ancillary services saw the largest increase from the previous year, at nearly 1000%.

In comparing the distribution by technology, Li-ion and lead-acid batteries were at a relatively equal scale of 51% and 49%, respectively.  At the same time, lead-acid batteries saw the greatest increase since the previous year, at over 81%.

Q4 8.png

3.       About this Report

The complete version of the Global Energy Storage Market Tracking Report (2017) can be downloaded from the CNESA ES Research website.

The ES Research site was launched January 18, 2018.  The site provides accurate, authoritative, and up-to-date market data analysis and information on the energy storage industry.  Please visit the website at www.esresearch.com.cn or scan the QR code below to learn more about the research services we offer.

QR.png

For questions or concerns, please contact the CNESA research department:

Telephone: +86 010-65667068

Email: na.ning@cnesa.org

The Ten Events that Defined China’s Energy Storage Industry in 2017

borders-2099203_1280.png

In 2017, China’s energy storage industry began to heat up.  October marked the release of the first national-level policy on the energy storage industry, and the energy storage market took big steps towards commercialization.  Based on long-term industry tracking, CNESA’s research department has gathered together the top ten energy storage news events to occur in China in 2017. Let’s hope for an even better year for energy storage in 2018!


1.    The Release of the “Guiding Opinions on Promoting Energy Storage Technology and Industry Development” Clarifies the Key Goals for the Next Ten Years of Energy Storage Development

On October 11, 2017, the Chinese government released the “Guiding Opinions on Promoting Energy Storage Technology and Industry Development.”  The policy, which is the first of its kind for China’s energy storage industry, focuses on current issues related to China’s energy storage technology and development, such as lacks in policy support, research demonstrations, standardization, and other issues.  The policy proposes an energy storage development goal for the next 10 years and five major tasks for China’s energy storage development.  The policy is a milestone for China’s energy storage industry, certifying energy storage’s place in the energy revolution and its use as a key strategy for a clean, low-carbon modern energy system.

 

2.    The “Workplan for the Improvement of a Subsidy (Market) Mechanism for Ancillary Services” Encourages Energy Storage Equipment to Provide Ancillary Services

The National Energy Administration released the “Workplan for the Improvement of a Subsidy (Market) Mechanism for Ancillary Services” in response to new challenges in operations management for electricity systems. The workplan seeks to improve and develop the subsidy (market) mechanism for ancillary services, and formulates a detailed, multi-stage development goal and key tasks.  The policy continues the “Grid-Connected Power Plant Ancillary Services Management Interim Measures” from 2006, serving as another important outline for the promotion of ancillary services nationwide. The workplan puts forth an increase in ancillary services according to need, encouraging energy storage equipment and demand-side resources to provide ancillary services, and permits third parties to participate as providers in ancillary services.

 

3.    Shanxi Province Begins Initial Trials of Energy Storage for Peak Shaving and Frequency Regulation Ancillary Services

The Shanxi Energy Regulatory Office released the “Notice on Encouraging Energy Storage in Peak-Shifting and Frequency Regulation Ancillary Services in Shanxi Province.”  The notice is the country’s first administrative regulation focused on energy storage for ancillary services.  In order to ensure that energy storage will be able to participate in the ancillary services market smoothly, the notice includes a workplan for program management, power pricing policies, grid dispatch strategies, and other areas. Shanxi province’s trial period for energy storage in ancillary services will consist of peak shaving and frequency regulation services utilizing both integrated and independent energy storage facilities.  Initial peak shaving trial units are set for a total capacity not to exceed 300,000KW, while initial frequency regulation trial units are set for a total capacity not to exceed 120,000KW.

 

4.    Grid-integrated Energy Storage Sees Support through Jiangsu Province’s Release of the “Customer-side Energy Storage Grid Integration Management Regulations”

State Grid Jiangsu Electric Power Co. released the “Customer-side Energy Storage Grid Integration Management Regulations.” The policy provides regulations for grid integration of customer-side energy storage systems connecting to the grid at 3,500 volts or less and a storage power rating of 20MW or less. Customer-side storage systems of 10 (6,20) thousand volts or more require local company control centers to conduct the necessary grid integration tests and configurations.  380 (220) volt customer-side energy storage systems require city/county company customer managers to be responsible for organizing the appropriate department to conduct the necessary grid integration tests and configurations.

 

5.    Energy Storage Enterprises Increase Deployment of Industrial and Commercial Storage Projects, with Jiangsu, Beijing, and Guangdong Becoming Hot Spots

According to statistics from CNESA’s project tracking database, Jiangsu, Beijing, Guangdong were 2017’s hot spots for planning, constructing, and implementation of new energy storage projects.  These three areas are notable for their developed economies, numerous industrial and commercial parks, and heavy power use.  Industrial and commercial users in these areas also engage in large degree of energy arbitration, and can make use of load shifting for electricity price management.  Narada, Sunwoda, Clou, and ZTT represent the key companies that have continued to increase deployment in the above three regions, both through increased activation of projects and the continuous release of contracts and construction plans for projects at 100 MWh and above.

 

6.    Local Ancillary Service Markets Continue to Open, Encouraging Energy Storage to Be an Independent Market Player

According to statistics from CNESA’s policy tracking database, following the lead of the special market reform trials for ancillary services in the northeast region beginning at the end of 2016, Shandong, Fujian, Xinjiang, and Shanxi each released their own marketization trials and operations regulations for ancillary services in 2017.  Each area has created its own peak shaving and frequency regulation market trading mechanism based on their unique power generation and load needs. Each area has also defined an equal role for market players, including power generation companies, power sellers, and power users.  Energy storage can provide ancillary services to power systems as an independent market player, or integrate with power generators at the generation side to share market benefits.

 

7.    Problems in the Use of Renewable Energy Peak Shaving Become More Apparent, Energy Storage’s Flexibility for Generation-side Applications Continues to Attract Attention

Due to the limited peak shaving abilities of power systems, lags in the planning and construction of transmission channels, and other reasons, problems in China’s use of renewable resources has become an increasingly urgent issue. As a result, the flexibility of energy storage applications for generation-side applications became an area of increased interest in 2017. Construction began on large-scale integrated “resource bases” combining wind, solar, water, thermal, and energy storage. Power generators and energy storage enterprises also teamed together to explore solar+storage models, wind+storage models, and dispatch solutions, with Huaneng’s solar+storage project in Qinghai, Beikong Renewable Energy’s Energy Storage plant in Yangyi, Tibet, and the Yellow River wind+storage farm project in Qinghai serving as examples of renewable energy generation-side storage projects either in operation or under construction.

 

8.    EV Battery Recycling Programs Take Off, Second-Life Battery Markets Begin to Form

With China’s EV sales continuing to climb, a large number of batteries will soon face retirement.  The State Council’s release of the “Manufacturer Extended Responsibility Plan” extends responsibility to EV manufacturers and establishes a system for the use of recycled batteries.  According to CNESA statistics on second-life battery markets, in 2017, new energy vehicle enterprises, energy storage system aggregators, EV manufacturers, PACK and BMS enterprises, battery recyclers, and other industry chain members have all increased efforts to create a second-life energy storage market.  The establishment of second-life trial programs at the megawatt level in industrial and commercial parks, China Tower Co.’s release of an EV recycling bidding program, and other trends have created popularity for second-life energy storage markets.

 

9.    Four Energy Storage Technologies Receive National Support and Become Key Research Focuses for 2018

The Ministry of Science and Technology’s release of the “Smart Grid Technology and Equipment” special guidelines in 2018 reveals five technology focuses.  These include the use of large scale renewable integration, flexible large-scale energy internet, diversified customer supply and demand interaction, multi-resource distributed energy supply and microgrids, and smart grid foundations.  In total, 23 key research tasks have been created.  In 2018, the key energy storage technology research areas include technologies for scaling applications of second-life EV batteries, foundational research on high safety long-life solid state batteries, research of megawatt scale flywheel energy storage key technologies, and research of liquid metal battery storage technologies.

 

10.    The First Batch of New Energy Microgrids and Energy Internet Demonstrations are Released, Energy Storage Plays a Critical Support Role

In 2017, China’s National Development and Reform Commission and the National Energy Administration each released the “New Energy Microgrid Demonstration Programs List” and the “‘Energy Internet+Smart Energy’ Demonstration Projects List,” respectively. 28 new energy microgrid demonstration projects and 56 energy internet demonstration projects were included on the lists. Out of the 28 projects, 25 are focused on electric energy storage or heat energy storage. Of the energy internet projects, the majority are energy storage facilities.  Energy storage has already become a critical technology for the support of new energy microgrids, the energy internet, and other new energy applications.

The CNESA research department conducts continuous tracking of energy storage industry development both in China and around the world.  A comprehensive summary and analysis of the 2017 energy storage industry’s projects, manufacturers, and policies will be available in CNESA’s “Energy Storage Industry White Paper 2018,” to be released during the 7th Energy Storage International Conference and Expo scheduled for April 2018.

 

A Look Back on the Energy Storage Industry in 2017

solar-panel-array-power-plant-electricity-power-159160.jpeg

 

2017: An Unexpectedly Busy Year for Energy Storage Development Around the World

Amongst the variety of energy storage technologies, electrochemical storage technologies have developed more speedily than any other.  Li-ion batteries, NaS batteries, lead-acid batteries, and flow batteries have all entered the fast lane of development. According to statistics from the China Energy Storage Alliance (CNESA), worldwide total capacity for electrochemical energy storage from 2000-2017 was 2.6GW, or 4.1 GWh.  These numbers represent a growth of 30% and 52% from 2016, respectively.  2017 saw a total increase of 0.6GW, or 1.4GWh, with over 130 new projects put into operation.

Beginning in 2016, electrochemical energy storage began to see rapid new applications.  Construction of new energy storage programs became “large, numerous, and popular.”  According to CNESA statistics, from 2016-2017, the global combined total scale of projects planned or under construction was 4.7GW, with an increasing number of projects hoping to be implemented in the following year to two years.  In order for large-scale electrochemical storage to meet the needs of power systems, the capacity of independent electrochemical storage systems has been ever increasing.  Over 40 projects with a capacity of 10MW or more were recorded between 2016-2017.  Popularity for energy storage applications has increased worldwide.  According to CNESA statistics, in 2015, ten countries including the United States, China, and Germany deployed electrochemical storage systems. By 2017, close to 30 countries had implemented energy storage projects, demonstrating how energy storage has become increasingly globalized.

Yet it is the speed of China’s electrochemical energy storage development that catches the most attention.  According to CNESA statistics, from 2000-2017 China’s total electrochemical storage capacity was close to 360MW, 14% of the world’s total, with an annual growth rate of 40%, surpassing the global growth rate.  Between 2016 and 2017, China had nearly 1.6GW of capacity planned or under construction, 34% of the world’s total.  China hopes to lead the industry’s development in the next few years.

 

2017: A Year of Policy Support for Energy Storage Around the World

As a country that developed policy support for energy storage at a relatively early stage, the United States has seen policies emerge across many states, starting in California and stretching to over 10 others, including Massachusetts, Oregon, and Hawaii.  The United Kingdom, Austria, Czech Republic, Italy, Australia, India, and China all released energy storage development policies in 2017.  Policy support, both in its depth of detail and breadth across regions, has proven beneficial for the rapid development of energy storage in 2017.

In October 2017, China released the first national-level energy storage policy for technology and applications support, the “Guiding Policies on Promoting Energy Storage Technology and Industry Development.”  The “Guiding Policies” lays out support plans for energy storage in five different areas: support for energy storage equipment research, support for energy storage’s utilization of renewable resources, support for the use of energy storage in the stabilization and flexibility of power systems, support for energy storage in increasing smart-energy applications, and support for energy storage as a means of diversifying the energy internet.  At present, Dalian, Yichun, Beijing, Handan, and other areas have already released local policies supporting energy storage.  In the future, it is likely that more policies will emphasize the use of local resources and industry advantages at the provincial and city level. It is also expected that future policy emphasis will be placed on the creation of electricity market entrance mechanisms and price compensation mechanisms for energy storage.

Following California’s declaration of a 1.325GW procurement plan, Oregon, Massachusetts, and New York released their own energy storage procurement plans for electric utilities.  New Mexico has already added energy storage to its list of resources for public utilities.  Maryland has designated sites across the state for the design, construction, investment, and operation of renewable resource and energy storage programs.  The United Kingdom and Australia are two countries that have seen rapid development of energy storage recently, with policy support following quickly behind.  The British government has emphasized the use of energy storage as part of the strategy for its “smart systems and flexibility plan,” providing recognition for energy storage as part of the nation’s electricity market.  Multiple regional governments in Australia have released incentive plans for storage installations, using subsidies to support behind-the-meter energy storage systems.

 

2017: A Year of Energy Storage Systems and Market Needs

Although industry development has intensified and policy support has gradually opened the market to energy storage, we cannot ignore the fact that the current driving factor for energy storage development is still policy.  The road to profitable and commercialized energy storage is still full of challenges and uncertainties.  Energy storage has become a closely watched “blue ocean” market.  In 2016, worldwide investment in energy storage exceeded 4.33 billion dollars.  Public acknowledgment and participation has given the industry confidence, yet as demonstrations gradually become marketized, independent, non-market demonstrations will end, and policy support will weaken.  Energy storage must then operate and compete in the real market, and technological performance, system configuration, application models, the profit feasibility, and scientific methods must all come under market scrutiny.  Energy storage has now entered the stage in which it must began to mature in the market.

In 2017, two separate battery storage projects, sized at 2.1GW and 4.8GW, were granted the opportunity to participate in the UK’s T-1 and T-4 capacity market auction.  Yet controversy arose regarding the relatively short dispatch duration of battery installations, which limits their ability to handle pressure on electricity systems.  After considering the fairness to long dispatch duration, non-energy storage technologies, the UK’s BEIS (Department for Business, Energy, and Industrial Strategy) conducted an evaluation, and, in December of 2017, decided to lower the de-rating factor for 30-minute duration batteries in the T-4 and T-1 capacity auctions.  The ruling put new demands on energy storage systems that can provide flexible response in a short time duration.  In the short term, the ruling can be viewed as a restriction on short duration storage in the capacity market, yet such a ruling also provides motivation for energy storage providers to develop long duration energy storage solutions.

The PJM market, which currently possesses 265MW of energy storage capacity in frequency regulation, has also recently update its regulations for the frequency regulation market. During periods of high ramp rate, the RTO requires large-scale generators or load switching to maintain balance. While decreasing the purchase of services classified as RegD (those that have fast ramp rates but limited power), the RTO has also increased the charge and dispatch rates for grid energy storage systems. This regulation update demonstrates how energy storage must now compete with other resources in a balanced market.  How energy storage will profit and find a suitable place in the market under these new regulations remains to be seen.

The standardization of energy storage products is a much needed development. In Germany, 52,000 residential energy storage systems were installed in 2017.  Demand for solar+storage systems for industrial and commercial applications is also quite high, yet growth has been challenged by a lack of product standardization, technological standardization, interface standardization, and standardization of commercial models. Additionally, standardization is needed for fire protection, health, safety, and other factors.  If such issues are ignored, it will be difficult for energy storage to spread throughout Germany at a large scale.

As energy storage continues to marketize, market demands and technological capabilities will continue to conflict.  As technology continues to become more feasible in the market, hardware, software, and interface performance will continue to not only improve but become more compatible with other equipment. In the electricity market, energy storage’s position, applications, and value will continue to shift and rectify itself in a positive direction. Within the power price mechanism, energy storage will continue to gain recognition as a means of replacing other power equipment.  Energy storage will also need to work faster to create standards and regulations to satisfy the environmental and safety demands of users. These issues will, in the short term, cause energy storage’s development to slow, yet this is not a negative. The development of energy storage requires continuous exploration, trials, and even failures to fight for its place in the market and move increasingly forward. An industry that has passed the tests of the market is one that possesses the greatest competitiveness and ability to survive.

Ten Events that Defined Energy Storage in 2017

new-years-day-1931728_1280.jpg

2017 was an exciting year for the development of the energy storage markets and projects.  Looking back, the China Energy Storage Alliance (CNESA) has compiled a list of the 10 biggest events in the international energy storage industry for 2017.

1.       United Kingdom: Capacity Market Regulation Reforms Deal a Blow to Short-duration Storage Systems

In July 2017, British electricity market players put pressure on the Department for Business, Energy and Industrial Strategy (BEIS), stating that battery storage could pose possible risk to the safety of electricity supply systems due to the fast speed in which such batteries discharge. In response, BEIS evaluated the possibility of such a risk and considered a reduction in the de-rating factor of short duration energy storage systems. In December of 2017, BEIS confirmed that T-4 and T-1 capacity auctions would receive sweeping reductions in de-rating factors for 30 minute duration batteries. This regulatory change is expected to severely reduce the benefit of short-duration energy storage projects and delivers a sharp blow to the future development of the capacity market for short-duration energy storage.

2.       Australia: Announcement of 5-Minute Settlement Period Helps Compensate Fast-Response Systems

Australia’s electricity system operates at a five-minute power dispatch interval, yet prices are calculated at intervals of 30 minutes.  Such a system is unable to distinguish between rapid and slow responses, meaning that systems that respond after 25 minutes would receive the same remuneration as those that respond immediately.  The new five-minute dispatch interval changes the way in which power generation companies are paid for the electricity they provide, and supports those technologies, such as energy storage technologies, that provide fast response to electricity needs.

3.       United States: Energy Storage Provides Power to the Grid After Southern California Gas Leak

The Aliso Canyon gas leak was the worst natural gas leak in the history of the United States, causing a severe electricity supply crisis in Los Angeles and San Diego.  In 6 months, over 100MW of storage capacity was installed in southern California in response to the crisis.  The incident served not only to highlight energy storage as a viable solution for grid emergencies, but also helped to decrease the dependence of the area’s power plants on natural gas.

4.       Europe: More Energy Storage Subsidies/Incentive Plans Appear, Promoting Behind-the-meter Solar Storage

Following California’s SGIP policy and Germany’s solar storage subsidy policy, other countries and regions in Europe have released subsidies or incentive plans for distributed energy storage.  Such measures promote large-scale applications of behind-the-meter storage.  Austria’s parliament voted to provide long-term funding for countrywide PV projects from 2018-2019. Lombardy, Italy’s most economically developed region, now provides subsidies to customers who purchase and install energy storage systems.  The Czech Republic’s Ministry of Industry and Trade has agreed to appropriate funds to support solar energy storage.  These and other subsidy policies will help to stimulate the commercial development of behind-the-meter storage in Europe.

5.       India: India’s Energy Storage Market Suffers Many Setbacks, But There is Potential for the Future

2017 was not a great year for India’s energy storage market.  Although India holds a positive attitude towards energy storage development, many planned energy storage projects have been shelved or postponed due to a lack of sufficient funding or specifications.  Such projects include the Pavagada and Kadapa solar storage project, which canceled bids after a sudden drop in PV prices, as well NTPC Ltd’s solar storage project on Andaman and Nicobar islands, which has seen continuous shelving of bids. The situation only began to improve during the latter half of 2017.  In the future, as population rises, urbanization continues, and extreme weather conditions lead to more frequent electricity supply issues, India will face tough challenges in generating capacity and T&D infrastructure. Groups including the Indian government, distribution network operators, and public utilities, among others, are actively working to develop energy storage plans, industries, and business layouts. Looking forward, energy storage shows much potential for growth in India.

6.       Global Policy Promotion: More Energy Storage Procurement Plans Released, Encouraging Rapid Deployment of New Projects

Following the opening of procurement planning after California’s AB 2514 bill, the U.S. states of New Jersey, Massachusetts, and Oregon, as well as Australia’s Victoria, Queensland, and South Australia, among others, have all enacted their own energy storage procurement goals for the support of establishing public utility-side storage projects.  New York state is also in the process of enacting their own procurement goals. The creation and announcement of these public utility procurement plans is an important step in the promotion of large-scale grid-side energy storage.

7.       Global Market Transactions: Mergers/Project Ownership Changes Fuse Technology and Capital

Large energy enterprises continued acquisitions of energy storage companies in 2017, including the acquisition of Demand Energy by European public utility company Enel, the acquisition of sodium-ion battery producer Aquion by China Titans, the acquisition of demand response company Restore by Centrica, and many other purchases. At the same time, many promising energy storage projects saw a change of hands, such as the purchase of RES and Belectric’s UK frequency regulation project by Foresight, and Enel’s purchase of another UK frequency regulation project through a contract signing with Element Power.  Acquisitions of energy storage companies and projects by large energy groups reflects their recognition of energy storage’s potential and helps to encourage a merging of technology and investment in the market.

8.       Popular Global Models: Virtual Power Plants Grow, Distributed Energy Storage’s Value Continues to Develop

Virtual power plant models have generally been easy to plan yet hard to construct.  2017 saw the implementation of a series of virtual power plants across the globe.  Sonnen released a virtual power plant project involving 2900 Arizona homes. Sunverge implemented two separate virtual power plant programs, one in Australian public utility AGL’s service area, the other in Japan’s Tepco service area.  Ireland’s International Energy Research Center announced plans for a community-level virtual power plant project. The popularity of these and other virtual power plant projects across the globe highlights the value of distributed energy resources to the grid.

9.       Global Project Scale: The Value of Large-scale Projects to the Grid Becomes Clear

As the price of energy storage technology continues to fall, in 2017 planned or constructed energy storage projects have become less limited by initial capital, and project scales have become larger.  These projects include developer Deepwater Wind’s large-scale wind energy storage project in coastal Massachusetts, the KEPCO and LG CNS plan for a large-scale solar plant in Guam, and Australia’s large scale combined renewable resource and energy storage projects.  These projects are all within the tens of MWh or above, some even reaching 400MWh. The expansion of energy storage projects to a larger scale helps to verify how large-scale storage projects can add value to power systems.

10.   Global Model Projects: Tesla Delivers World’s Largest Battery Storage System in Less Than 100 Days

On Dec 1, 2017, Tesla officially activated the world’s largest Li-ion battery system in South Australia.  The project operates at 100MW/129MWh and utilizes a Samsung SDI Li-ion battery system.  The project is connected to French renewable energy provider Neoen’s Hornsdale wind farm, providing stable clean power for South Australia.  The project received much attention for its completion in under 100 days, and served to demonstrate how energy storage can alleviate power system emergencies in a short period of time.

Summary

The development of the international energy storage market has served to help China map its own technology developments, search for new business models, and reform related policies and mechanisms.  Detailed information on how the international markets have developed will be included in the China Energy Storage Alliance’s 2018 White Paper, to be released at the 7th Annual International Conference and Expo scheduled for April 2-4, 2018

CNESA Storage Market Analysis Q3 2017

1.       The Global Market

Electrochemical Energy Storage Programs Continue a Steady Growth

According to partial statistics of the China Energy Storage Association (CNESA), as of 2017 Q3, energy storage projects have reached a total worldwide operational scale of 169.2GW. Among these, pumped hydro occupies the largest number of installations at 97%. Electrochemical energy storage systems rank third in scale, at 2244.4MW, or 1.3% of the total, an increase of 15% from last year.

The third quarter of 2017 has seen a worldwide increase of 94.4MW in the total number of operational electrochemical energy storage projects, a 551% increase from Q3 of 2016, and 50% increase since Q2 of 2017.

1.png

 

Q3 Markets in the United Kingdom, Australia, United States, and China are Active

A comparison of worldwide Q3 increases reveals the UK, China, and Japan to be the top three countries with the largest scale of projects in operation. Projects in these three countries have all been dedicated to the renewable integration and ancillary service sectors. Australia, the US, and the UK rank top three in scale of projects under construction/planning, with 91% of such projects in these countries dedicated to renewable integration and the ancillary service sectors.

2.png

Ancillary Services Occupy the Largest Proportion of Q3 Market

In quarter three of 2017, the scale of global increase in energy storage projects has been largest in the ancillary services sector at 31.5MW, or 33% of the total global capacity.  This is a 6200% increase since Q3 2016, and 75% increase since Q2 2017. Projects have largely been concentrated in the UK, Germany, and Belgium, such as the UK’s frequency regulation projects in Bristol and Darlington. The energy storage systems operate as independent electric stations, or in conjunction with gas turbines to provide a primary frequency control service for the European market.

3.png

Lithium Battery Enterprises Occupy the Top Four Spots in the Q3 Market

A comparison of energy storage enterprises by newly installed capacity revealed that the top ten energy storage manufacturers were responsible for 82% of the total installed capacity in Q3 2017.  Among these, lithium battery manufacturers occupied the top four spots on the list, and a total of eight spots altogether.  Lead-acid battery manufacturers Sacred Sun and Narada occupied the remaining two spots on the list.

Notes:

1.       Subject of the rankings: global energy storage system providers

2.       Ranking Criteria: based on the “Global Energy Storage Project Database”; Data used comes from the publicly available and self-reported information for each enterprise; Rankings are based on the global total new increases in overall capacity (MW) in the first three quarters of the 2017 year.

4.png

2. The Chinese Market

Electrochemical Energy Storage Programs See Similar Steady Growth

According to partial statistics of the China Energy Storage Association (CNESA), as of the third quarter of 2017, operational energy storage projects have reached a scale of 27.7GW. Among these, pumped hydro occupies the largest number of installations at 99%. Electrochemical energy storage projects hold a total capacity of 318.1MW, or 1.1% of total installations, an increase of 18% from the previous year.

In the third quarter of 2017, new energy storage projects reached a total scale of 22.8MW, a 114% increase from Q3 2016 and 1% increase from Q2 2017.

5.png

Q3 Markets in Eastern China Show High Activity

A geographic comparison of the total newly implemented capacity reveals that Eastern China occupies the largest scale at 12.2MW, or 53% of the total capacity across China.  All applications are within the behind-the-meter sector, with the bulk of applications seen in industrial parks, helping enterprises to track peak and off-peak costs and save money through arbitrage of energy.

6.png

Behind-the-Meter Sector Occupies the Largest Proportion of Q3

China’s newly added energy storage projects have all been concentrated on the renewable integration and behind-the-meter sectors.  The behind-the-meter sector is the largest at 17.8MW, occupying a 78% proportion, a 67% increase since Q3 2016, and 287% increase since Q2 2017. The third quarter increases in the behind-the-meter sector have all been in lithium-ion and lead-acid battery technologies, with lead-acid batteries occupying the greatest proportion at 54%.

7.png

Lithium Battery and Lead-Acid Battery Enterprises Occupy the Main Spots in Q3 Market

The energy storage providers holding the top five spots in new capacity held 80% of the total new capacity in China for Q3 2017, with Narada occupying the first place on the list.  The bulk of the storage capacity for these five enterprises has been applied to the behind-the-meter sector, at nearly 70% of the total new capacity. New projects have largely been concentrated in Jiangsu, Zhejiang, Guangdong, and other areas of eastern and southern China, with the bulk of the energy storage systems applied to industrial parks.

Notes:

1.       Subject of the rankings: Chinese energy storage system providers

2.       Ranking criteria: based on the “Global Energy Storage Project Database”; Data used comes from the publicly available and self-reported information for each enterprise; Rankings are based on China’s total new increases in overall capacity (MW) in the first three quarters of the 2017 year.

8.png

3. About this Report

In order to strengthen the sharing of industry information and assist enterprises in better understanding market developments, the China Energy Storage Alliance (CNESA) has, beginning in 2017, provided the “Energy Storage Industry Data Sharing and Transmission Platform.”

Each quarter year, we send our platform members the full version of our Report on the Global Energy Storage Market. Our summary versions, once available, are also shared freely amongst industry colleagues.

We welcome any enterprise wishing to join our information sharing platform to contact the CNESA Research Department, to share information and receive a copy of the Report on the Global Energy Storage Market.

Contact: Na Ning

Telephone: 010-65667068-805

Email: na.ning@cnesa.org

 

BAIC BJEV Announces “Optimus Prime Plan” Combining Battery Swapping, Energy Storage, and Solar Models

ampnet_photo_20151001_106690.jpg

On November 3, 2017, BAIC BJEV established the “Weilan Environmental Alliance” and put into place their “Optimus Prime Plan.”  The plan seeks to make use of battery swapping and second-life battery technologies, integrating new energy vehicles, EV batteries, battery swapping stations, and PV technology, creating an intensive, intelligent, and convenient environmentally friendly system. The “Optimus Prime Plan” has three stages of implementation:

·       Stage 1 (2016-2017): BAIC BJEV and Aulton will work together with taxi companies to install battery swapping stations, creating an operations platform for transportation and second-life battery operations and repair. The measures will create a city-level energy Internet centered on swapping stations utilizing solar energy storage.  100 swapping stations will be installed and over 4000 vehicles will be put in operation, creating a total stored energy battery system of 100 MWh (100,000 kWh).

·       Stage 2 (2018-2020): Beijing, Xiamen, Guangzhou, Shenzhen, Lanzhou, Xi’an, Kunming, Zhengzhou, and other cities will receive operations platforms for transportation and second-life battery operations and repair. These efforts focus on creating a regional-level energy internet centered on swapping stations utilizing solar energy storage. 1000 swapping stations will be installed and 100,000 vehicles will be put in operation for a total 1GWh (1,000,000 kWh) stored energy battery system.

·       Stage 3 (2021-2022): the plan will be extended across the entire country, covering all major cities, urban, and rural regions. These efforts will focus on creating a country-wide energy internet centered on swapping stations utilizing solar energy storage. 3000 solar-powered swapping stations will be installed and 500,000 vehicles will be put into operation for a total of 5 GWh of storage in operation.

A total of 10 billion RMB is to be invested in the “Optimus Prime Plan.” The plan will help to ease pressure on the power grid, conserving 1 GWh of grid electricity for the country in five years. The plan will also encourage second-life usages for EV batteries, giving new use to 50,000 tons of batteries over five years. Finally, the plan is environmentally beneficial: with 500,000 taxis converted to electric vehicles, 8,500,000 tons of carbon emissions can be reduced in a year.

News from Around the Web

american-public-power-association-430846.jpg

Puneng Energy’s Vanadium Flow Battery Demonstration Project in Zaoyang, Hubei

The program is planned for a total scale of 10MW/40MWh, with a first phase scaled at 3MW/12MWh.  The project is planned to begin installation in November 2017. The first phase is planned for completion in early 2018.  Upon completion, the project is set to be the largest capacity flow battery system in China.  Puneng Energy and Hubei Pingfan plan to utilize local vanadium resources in construction of the project to develop the local vanadium battery industry to meet future energy storage needs.

Link (in Chinese):  http://www.escn.com.cn/news/show-471590.html

Guoxuan High-Tech Power and Shanghai Electric Become Energy Storage Strategic Partners

In November 2017, Shanghai Electric Group and Guoxuan High-Tech Power met in Nanjing to sign an investment agreement for the creation of an energy storage project base.  The project will cost 3 billion Yuan and make use of Shanghai Electric’s resource advantages in the electric sector, widening distributed energy storage and grid energy storage operations. The project will also make use of Guoxuan High-Tech Power’s battery storage technology, together creating an energy storage base that will help move energy storage technology towards the international market.

The project’s scope of operations will include microgrid energy storage, peak-shifting and frequency regulation, high-reliability back-up power, specialized vehicle power sources, construction machinery power sources, mobile power charging services, and more.

Link (in Chinese): http://www.gg-lb.com/asdisp2-65b095fb-30734-.html

Shanxi Energy Regulatory Office Issues “Notice on Encouraging Electric Energy Storage in Peak-Shifting and Frequency Regulation for Ancillary Services in Shanxi Province”

The notice states that electricity producers, customers, sellers, and energy storage providers all may participate in ancillary services, though grid enterprises may not, for the time being, directly or indirectly invest in the construction of energy storage installations.

The above ancillary services include peak-shifting and frequency regulation. Energy storage installations independently participating in peak-shifting should have a power rating of above 10MW (with no limits at present on combined peak-shifting capacity), with power rating for a continuous charging time of 4 or more hours.  Energy storage installations independently participating in frequency regulation should have a power rating of 15MW or more, and a continuous charge-discharge time of 15 minutes or more. A single combined frequency regulation project should have a capacity of 3%, or 9MW and above, with a continuous charge-discharge time of 15 minutes or more.

Link (in Chinese): http://sxb.nea.gov.cn/

Sacred Sun Power’s 1.2MWh Energy Storage Project at the Liyuan Economic Development Zone in Wuxi

November 7th, 2017, Sacred Sun Power’s 1.2MWh energy storage project at the Liyuan Economic Development Zone in Wuxi was successfully put into operation.  Both Sacred Sun and Boer Liyuan New Energy have cooperated to contribute funds to the project.  The project will mainly focus on helping the economic park utilize peak shaving methods and prepare emergency backup power supplies.

Link (in Chinese): http://www.escn.com.cn/news/show-475216.html

Join Us for ESIE 2018

微信图片_20171208162224.jpg

The China Energy Storage Alliance’s 7th annual Energy Storage International Conference and Expo (ESIE) is set to take place April 2 – 4, 2018 at the China National Convention Center in Beijing.  This year’s event is supervised by the National Energy Administration, with support from the China Energy Research Society and Zhongguancun Science Park.  The event will feature nearly 100 expert speakers from around the globe and is expected to draw over 5000 guests from all corners of the energy storage industry, including government agencies, private enterprises, research institutes, energy service providers, and many more.

ESIE is China’s leading event covering the energy storage industry and is the premiere platform for connecting China’s energy storage industry with the world.  ESIE 2018 will continue to build upon the success of previous years’ conferences with an exhibition area newly expanded to 6000 square meters and featuring over 100 exhibitors.  Guests can expect a wide variety of policy discussions, expert dialogues, displays and exhibits, new product releases, and the second annual International Energy Storage Innovation Competition, honoring outstanding technologies, projects, and individuals from the world of energy storage.

The 2018 conference will be particularly special.  With the exciting release in October 2017 of China’s first national-level policy document for energy storage, all eyes are focused on China’s energy storage industry. The “Guiding Opinions on Promoting Energy Storage Technology and Industry Development” serve as the first framework released providing a policy basis for the development of large-scale energy storage technologies and industries in China.  This year’s conference will invite government leaders and policymakers to provide a deep analysis of the “Guiding Opinions” document and related regional government policies across China, focusing on the practical measures laid out in the “Guiding Opinions,” how future energy storage policies will be structured, and more.  The discussions will help interpret China’s energy storage outlook for conference attendees both domestic and international.

Exhibition spaces are booking fast and include exhibitors both returning and new, such as Soaring Electric, Today Energy, Sacred Sun, ZTT, Ray Power, CGGC-UN Power, Shuangdeng Group, Yinlong Energy, TÜV Rheinland, Rongke Power, ABB, NGK Insulators, and many more industry leaders.

Join us for China’s biggest energy storage event of the year.  To learn more and to book your ticket, please visit the ESIE website at http://expo.cnesa.org/

China Releases First National-Level Policy Document Guiding Storage Industry Development

China Releases First National-Level Policy Document Guiding Storage Industry Development

twilight-power-lines-evening-evening-sun-46169.jpeg

 

On October 11, 2017, China released its first national-level guiding-policy document covering energy storage. The document, “Guiding Opinions on Promoting Energy Storage Technology and Industry Development” (hereafter referred to as “Guiding Opinions”) marks a significant milestone, providing a unified framework for subsequent policies and detailing key development tasks. The announcement comes at a ripe time for the industry. According to data from the China Energy Storage Alliance (CNESA), between 2016 and June 2017, over 1.35 GW of electrochemical energy storage projects were completed or under construction. Compared to the growth between 2000-2015, China has increased its domestic storage capacity by a factor of 9.6.

Jointly published by the National Development and Reform Commission, Ministry of Finance, Ministry of Science and Technology, Ministry of Information and Information Technology, and the National Energy Administration (NEA), the “Guiding Opinions” is the culmination of over 1.5 years work. In 2016 the NEA tasked China Energy Storage Alliance (CNESA) with organizing stakeholder input from power companies, renewable energy companies, market operators, and consultation from a panel of over 20 experts. The Chinese Academy of Sciences Institute of Thermal Physics, Institute of Physics, Electric Power Research Institute, and Tsinghua University all contributed with supporting research. 

The document is structured around three key points to:

  • Affirm importance of energy storage in relation to development priorities such as smart grids, high renewable energy grid-penetration, and the “Internet of Energy.”

  • Set development goals and key tasks over the upcoming 10 years.

  • Outline necessary supporting policy directions to be enacted to achieve these goals.

The “Guiding Opinions” clearly identifies energy storage as an asset to the modern power grid, to provide grid services, and ensure quality grid operations, resiliency, and safety.

Particularly important are the development goals and key tasks specifically laid out, providing a clear idea of how the Chinese industry will take shape in the near future. Over a 10-year period, the document envisions two stages of development. In the first half, domestic storage technology production will reach advanced international standards, with preliminary accomplishments in creating a standards body. The second half of development, which will fall into the 14th Five Year Planning Period, (China is currently in the 13th Five Year Planning Period) will show a mature industry with world-class, internationally competitive technology. 

On the road to achieving technology advancements, the document outlines specific plans for model demonstrations verifying various technologies at specific power and capacity ratings. Included in these are plans for projects such as:

  • 10 MW/100 MWh-grade CAES demonstration

  • 10 MW/1000-MJ grade flywheel demonstration

  • 100 MW-grade Li-ion battery demonstration

  • 100 MW-grade vanadium flow battery demonstration

Construction of any of the above would represent significant technology breakthroughs. For reference, the world’s largest capacity Li-ion battery project in operation currently stands at 30 MW/120MWh in California.

Plans are also included (without specific power ratings) for molten salt thermal storage and advanced lead-based battery technologies. In all, the “Guiding Opinions” stresses the importance of developing a diverse array of technologies suitable for different applications.

To achieve these goals, the document calls for subordinate government agencies to establish policies governing pricing mechanisms, technology standards, intellectual property protections, and battery material recycling. In addition, the “Guiding Opinions” also lists out plans to bolster support for continued trial demonstrations, clarifying compensation mechanisms, guiding investments, and continuation of power system market reforms.

While there have been some movements in the local and regional policy sphere geared towards energy storage, such as the ancillary services market pay-back mechanisms in the Northeast along with additional guiding documents supporting energy storage issued in Dalian and Handan, the “Guiding Opinions” are the first concerted national-scale effort.

According to CNESA’s 2017 white paper, electrochemical energy storage installed capacity is expected to grow to 2 GW by 2020, while molten salt and compressed air storage are expected to reach 1.8 GW and 148 MW, respectively. Increased policy support for energy storage will ensure these predictions become reality.

As China’s sole association representing the energy storage industry, CNESA is pleased by the recent policy developments and looks forward to continuing to work towards accelerating the growth of this crucial technology.

Energy Storage in the APEC Region

In collaboration with the Asia-Pacific Economic Cooperation (APEC), CNESA has released a report detailing the status of energy storage technology deployments in the region. The report comes as a culmination of a yearlong project including seminars, site visits, and desk research. Divided into three parts, the report highlights current technologies, representative case studies, and provides an overview and analysis of related policy across APEC economies. 

The report can be accessed from the APEC's publication database here

CNESA Storage Market Analysis Q2 2017

Global Market Scale

In Q2 of 2017 49.6 MW of newly added electrochemical energy storage began operations across the globe. This marks a 41% decrease compared to the same period of last year, and a 59% decrease compared to Q1 of 2017. Newly operating projects were located in China, US, Netherlands, Tanzania, Myanmar and the Maldives. Of these, China’s newly added capacity was the largest, representing 43% of added capacity.

Qtrack1.JPG

In terms of project applications, ancillary services projects took up the largest share at 28 MW, or 56% of newly installed capacity by application. This amount is a 42% crease since the same period last year, and a 72% decrease since Q1 of 2017.

From a technology perspective, projects were predominantly powered by Li-ion and lead-based battery technologies. Li-ion took up the largest share of 43.2, or 87% of installed capacity, a 35% decrease since the same period last year and a 64% decrease since Q1 of 2017.

Global Market Movements

As before, the US, Australia, and Europe are hotbeds of market movement.

The US states of California, Maryland, and Nevada issued several storage-related policy documents in conjunction with user-sited storage, renewables grid integration, tax policy, and demand response. Australia issued standards with respect to Solar + Storage. In Europe, the Czech Republic issued its first solar + storage subsidy plan. Italy and England both issued standards and energy system reforms allowing energy storage to participate in the electric grid. Argentina and South Africa also issued plans for GW-scale solar + storage plants to reduce fossil-fuel dependency, resolve problems with integrating renewables into the grid, as well as provide power for remote regions.


China Market Scale

In Q2 of 2017, China added 21.1 MW of newly operating electrochemical storage, a 65% increase compared to the same period last year and an increase of 1588% compared to Q1 of 2017. 91% of newly added capacity was located in the Northeast region.

Qtrack2.JPG

In terms of project applications, 85% of added capacity was used for ancillary services applications, with the entirety of these projects using Li-ion battery technology. When considering all project applications, Li-ion technology similarly was dominant, used in 88% of all project types.  

China Market Movements

On a national level, an official list was released outlining sanctioned microgrid demonstration projects. Of the 28 projects in total, 25 included energy storage equipment. On local and provincial level, provincial level ancillary service market operating rules were published as well as provincial level storage equipment construction standards.

Project located in the Northeast Grid were concentrated around Shanxi and Beijing. The Shanxi projects focused on examining applications for energy storage in thermal power plants as a means to respond to AGC modulation commands. The Beijing projects were installed in commercial buildings to reduce electricity bills and provide a source of backup power.

 

CNESA White Paper 2017

CNESA White Paper 2017

CNESA has published the 2017 English version of its annual Energy Storage White Paper, a comprehensive review of the storage industry in China and abroad. This year's report takes a special focus on the Chinese market, including China's top manufacturers and an overview of the power sector reforms laying the groundwork for the world's largest upcoming storage market. 

Key topics include:

  • China's storage market drivers
  • Market breakdown by application, region, and technology
  • Overview of key power sector policy reforms
  • Global markets summary

We're happy to release this English summary version white paper for free. For more detailed and in-depth analysis, please refer to our Chinese-language version, available for purchase on our Chinese site

To learn more about the Chinese energy storage market, please contact us.

CNESA Storage Market Analysis 2017 Q1

Global Movements:

In the first quarter of 2017, newly operating electrochemical energy storage projects totaled 120 MW, a 48% increase compared to the same period last year, and a 37% increase compared to Q4 of last year. Projects were largely located in the United States, England, Finland, China, Australia, Denmark, and India.

Most of Q1's newly added capacity is devoted to ancillary services applications with over 99.1 MW. This represents a 87% increase since the same period last year and a 38% increase since Q4 of 2016.

Global Markets:

The most active states in the US include, California, New York, Texas, Hawaii, and Massachusetts, mainly addressing grid power shortages and increased grid flexibility. England placed emphasis on storage participating in frequency regulation and grid capacity services. German projects focused on large scale storage stations involved with balancing storage renewable energy generation output. Australian projects were mostly located in South Australia and focused on improving grid stability. 

China Market Updates

In Q1 of 2017, China added 1.25 MW of newly operating energy storage facilities, a 92% decrease from the same period last year and a 93% decrease since Q4 of last year. Newly added projects were all in the Eastern China region.

Nearly all of added capacity was in distributed energy and microgrids applications, growth in this sector increased 1150% from Q4 of 2016 decreased 93% since Q4 of 2016.

China Market Movements:

After the release of several national level “13th Five Year Plans” covering development and technology innovation roadmaps across energy sectors, several provinces began releasing provincial-level "13th Five Year Plans" and guiding opinions to cover future implementation plans. 

Innovation Competition Winners Announced

This year, CNESA in collaboration with the China Association for Science and Technology, National Energy Administration, and China Energy Research Society kicked off the first annual energy storage Innovation Competition to recognize outstanding storage projects, technologies, and individuals for their contributions to the industry. The evaluations committee comprised of experts from Tsinghua University, the Chinese Academy of Sciences, and North China Electric Power University selected finalists from an open nominations process taking place from December 2016 to March 2017. Finalists chosen in each category were entered into an online voting platform via the Chinese messaging service, WeChat, where public votes accounting for a portion of the final score, the remaining portion of the score coming from the evaluation committee’s final deliberations in May of 2017.  

On May 23, 2017, the winners were announced during the opening ceremony of the 6th Annual Energy Storage International Conference & Expo. CNESA offers congratulations to the entries listed below and a heartfelt thanks to all who participated in this year’s competition.

Applications Prize - Top 10

Company Name Project Name
Guangdong Power Grid Model Demonstration Multi-Purpose Energy Storage Systems and Internet Operations
Sacred Sun Sacred Sun Nima Storage Project
Dalian Constant Current Energy Storage Co., Ltd. Dalian Flow Battery Peak Shifting National Demonstration Project
ABB Hokkaido Island Project (Japan)
Shenzhen Advanced Clean Power Technology Research Co., Ltd. Relzow 100/200MWh Li-ion Battery Project (Germany)
Pride Power Mobile EV Charging Station System
State Grid EV Service Co., Ltd. Highway Service Station “Solar + Store + Charging” Demonstration Project
Huaneng Clean Energy Research Institute Co., Ltd. DC PV + Storage System Develop and Coordinated Operations Research
Jinhe Energy Altay, Xinjiang Wind Clean Energy District Heating Model Demonstration
Narada Power Xuzhou Silicon Industries Peak Shifting Storage Station

Technology Prize - Top 10 

Company Name Technology Name
Chinese Academy of Sciences Institute of Thermal Physics Advanced Compressed Air Energy Storage System
Tsinghua University-Affiliated Petroleum Resources and Engineering Co., Ltd. 1MW/60MJ Flywheel Storage System
Ningbo New Energy Technology Co., Ltd. Supercapacitors for City-Wide Public Transportation Applications
Chinese Academy of Sciences Shanghai Institute of Ceramics High energy density Li-ion battery ceramic-based ion conducting electrolyte
Shuangdeng Group Super Carbon Battery
SPS-Cap New High Energy Density Supercapacitor Applications in Rail-Based Vehicle Energy Storage
Soaring Energy Black Start Key Technology and Applications
Jiangsu Smart Energy Storage Technology Co., Ltd. Molten Salt Thermal Storage in Thermal Power Plant Applications
C&D Technologies Novel Lead-Carbon Battery Technolgoy
Nova Greentech, Inc. Restructurable Battery Network and Software Defined Battery Control and Management System

Leadership Prize

陈海生 Chen Haisheng Vice-Director, China Academy of Sciences Institute of Thermal Physics/ Chair, China Energy Research Society Energy Storage Committee

张华民 Zhang Huamin Head Scientist, Chinese Academy of Sciences Dalian Physical Chemistry Research Institute

王仕城 Wang Shicheng Chairman, Beijing Soaring Electronics Co., Ltd.,

陈博 Chen Bo General Manager, Narada Electric

魏银仓 Wei Yincang Chairman, Yinlong Energy

Innovation Grand Prize 

Company Name Project Name
Sacred Sun Sacred Sun Nima Storage Project

Lifetime Contribution Prize

杨裕生 Yang Yusheng Scholar, Chinese Academy of Engineering

ESIE 2017 Wraps Up 6th Successful Year

CNESA’s 6th Annual Energy Storage International Conference & Expo ESIE was held May 22-24, 2017 at the China National Convention Center. Our biggest event to date included 2000+ representatives hailing from 20 countries convening in Beijing for three full days of expo hall activities, conference forums, and business networking.

This year’s event was guided by the National Energy Administration and supported by the Zhongguancun Park and China Energy Research Society.

Day 1 Pre-Conference Events

APEC workshop speakers and attendees

APEC workshop speakers and attendees

Pre-conference events included the culminating workshop of CNESA-organized APEC-sponsored research project, “Research on Energy Storage Technologies to Build Sustainable Energy Systems in the APEC Region.” Expert speakers from the Pacific Northwest National Laboratory, Asia Development Bank, World Energy Council, China’s Development Reform Commission, and ABB all presented on the status of energy storage development, policies, and recommendations for implementing Energy Storage technology in the APEC region. Government representatives from Chile, Malaysia, and Thailand were also present.

Representatives from CNESA's 160 member companies attend the annual member's meeting

Representatives from CNESA's 160 member companies attend the annual member's meeting

Monday’s events also included the CNESA annual member’s meeting where alliance leadership briefed members on the accomplishments to date set the strategic development plan for the upcoming year.

Day 2 Events

The opening ceremony with an attendance exceeding 2,000 included keynotes from government leaders from the National Energy Administration, Chinese Academy of Sciences and National Center for Climate Strategy. CNESA Secretary General Tina Zhang also announced the publication of the 2017 Energy Storage Industry White Paper along with the report’s key findings, including the CNESA forecast for 44 GW of energy storage across all technologies by 2020.

CNESA Secretary General, Tina Zhang, presents key findings from the 2017 white paper

CNESA Secretary General, Tina Zhang, presents key findings from the 2017 white paper

Government leaders tour the expo floor and connect with industry representatives to learn about new technologies

Government leaders tour the expo floor and connect with industry representatives to learn about new technologies

It was also during the opening ceremony where results from the 1st Annual Energy Storage Innovation Competition were announced.

Meanwhile on the expo floor, team of government representatives from regulatory and rule-making bodies made an official tour, connecting with industry players to better understand the promises energy storage technology can offer China’s power system.

International panelists discuss storage markets across the globe

International panelists discuss storage markets across the globe

Afternoon sessions included break-out forums on solar + storage and the analysis of global markets and policies. The international forum, drawing from CNESA’s vast international network of association partners included speakers from the US Department of Energy (USA), Asia Development Bank (Korea), the European Association for the Storage of Energy (Belgium), CSIRO (Australia), Germany Trade & Invest, and the India Energy Storage Alliance.

Day 3 Events

The culminating conference day was organized around parallel discussion tracks covering technology frontiers, grid-side applications, the “Internet of Energy,” and the economics of storage.

CNESA researcher Ning Na discusses storage economics

CNESA researcher Ning Na discusses storage economics

Christopher Molnar of American company, Chromalox, presents on thermal storage solutions

Christopher Molnar of American company, Chromalox, presents on thermal storage solutions

 

Next year's event is scheduled for April, 2018 in Beijing, China. We hope to see you there!