[Japan] Shikoku Electric Power and SBI Insurance Will Start to Offer a Free Cancer Insurance Plan for New Customers, Joining the Residential Electricity Plan

On September 28, 2018, Shikoku Electric Power announced a partnership with SBI Insurance to offer the Shikoku Electric Power Cancer Insurance Plan. The plan will launch on October 22, 2018, and it will be offered through Denki Ins-Web[1], a website operated by SBI Insurance that assists customers with comparing the pricing of different electricity plans. The plan will be free for Shikoku Electric Power’s newly registered residential electricity customers in the Tokyo metropolitan area. Customers that join the insurance plan who are diagnosed with cancer will receive 50,000 JPY (approximately 450 USD). The insurance service is provided by SBI Insurance, and Shikoku Electric Power will cover the insurance premium.

Shikoku Electric Power’s service area covers Japan’s Shikoku region, which consists of four prefectures in the southern part of Japan, namely Ehime, Kagawa, Kōchi, and Tokushima. Since Japan has fully liberalized its electricity retail market, Shikoku Electric Power has been seeking to expand its business in the Tokyo metropolitan area by offering competitive services in new markets. SBI Insurance is focusing on providing products and services that meet diverse market needs in order to strengthen their sales channels other than direct sales. Shikoku Electric Power and SBI Insurance are working together to provide new services that combine their strengths in electricity retail service and insurance products to improve their service offerings.[2]

[1] https://denki.insweb.co.jp/

[2] http://www.yonden.co.jp/press/re1809/data/pr016.pdf

[Japan] TEPCO Innovation & Investments US Invested in Hawaii Renewable Energy Company Adon Group

On September 20, 2018, TEPCO Innovation & Investments US, Tokyo Electric Power Company’s wholly owned subsidiary in the U.S., announced that it has invested two million USD in Adon Group, a Hawaiian renewable energy company. Adon Group, which consists of Adon Construction, Adon Renewables, and Green Vision, specializes in the development, construction, operation, maintenance, and asset management of solar facilities, mainly for commercial and industrial (C&I) customers in Hawaii. Through its investment in Adon Group, TEPCO Innovation & Investments US aims to join the Hawaii C&I solar energy market and develop new business models, including microgrid and resource aggregation businesses.

Hawaii has set a goal to generate 100% of its electricity from renewable energy by 2045. The implementation of solar photovoltaic (PV) systems has been increasing in Hawaii due to their affordable price and support from federal and state government subsidies. However, as the solar generation capacity increases, it is facing issues such as supply-demand balancing and system-voltage control. Hawaii has been focusing on PV systems equipped with battery storage to address these challenges. Adon Group plans to expand its businesses by offering PV systems equipped with battery storage.


Source: https://www.tepcoventures.co.jp/news/2018-...

[Japan] CD Direct Energy Collaborated with Aruhi Marketing to Expand Services under “Aruhi New Living Pack”

On September 14, 2018, CD Energy Direct, a joint investment company of Chubu Electric Power and Osaka Gas, announced a collaboration with Aruhi Marketing, a subsidiary of Aruhi, Japan’s largest financial institution specializing in mortgage loans, as part of the “Aruhi New Living Pack”, a preferential service for homebuyers using an Aruhi mortgage when buying a new home.

 

To help customers reduce the time and cumbersome administrative process for all essential services on starting a new life in a new area, Aruhi Marketing will take care of all moving-related application procedures, covering services such as electricity and gas supply, water, internet connection, and moving services, on behalf of customers. The package also offers various discounts and benefits. In the Tokyo metropolitan area, the electricity and gas offered as part of the service will be provided by CD Energy Direct. Meanwhile, Chubu Electric Power will continue to expand its services in other regions.

Source: https://www.chuden.co.jp/corporate/publici...

[Japan] J-Power and Okayama University of Science Filed a Patent Application for Autonomous Camera-Equipped Drone for Monitoring Energy Infrastructure Facilities

On September 10, 2018, J-Power announced that it had jointly filed a patent application with the Okayama University of Science for an autonomous camera technology to monitor and inspect energy infrastructure facilities, using drones. A camera-equipped drone automatically plans a flight route and approaches transmission facilities, such as steel transmission towers and transmission lines, and takes photographs of the targeted objects. The technology combines flight control, avoidance control, and high-speed image processing, aiming to significantly improve the safety and the quality of inspection work, as well as reducing the risk of field workers at high elevations. In addition, the drone’s operational status, such as its location, altitude, and flight state, can be monitored through the wireless network. In cases when the drone detects a failure or problems at the facilities, it also records images along with the location. The technology is expected to be fully commercialized in FY 2019.

Source: http://www.jpower.co.jp/news_release/2018/...

[Japan] Hokkaido Electric Power Company Restarted the Tomato-Atsuma Power Plant Unit 1 after Iburi Earthquake

Due to the Hokkaido Eastern Iburi earthquake that occurred on September 6, 2018, the Hokkaido Electric Power Company suffered damage at several of its power plants as well as its transmission and distribution infrastructure, causing a massive blackout in the region. On September 19, 2018, a regional power operator announced that it had restarted the Tomato-Atsuma thermal power plant Unit 1 after a trial operation was successfully performed to gradually increase the output. Prior to the restart of the power plant, the Hokkaido Electric Power Company had set power saving time from 8:30 am to 8:30 pm on weekdays by encouraging energy users to reduce their energy consumption as much as possible, targeting a 10% reduction in electricity demand. After restoring the Tomato-Atsuma power plant Unit 1, the company canceled the power saving time period and resumed its plans for energy saving for the winter season at normal levels. The company is working to bring two more Tomato-Atsuma power plant units back online soon.[1] 

Meanwhile, the earthquake caused significant damage to the transmission and distribution facilities that the utility owns and operates. As of September 16, 2018, the Hokkaido Electric Power Company has temporarily restored the No. 71 transmission tower on the Iwachishi line (66kv), and it has been working on repairs on the No. 107 transmission tower, which was destroyed by a landslide. The Hokkaido Electric Power Company expects to restore the No. 107 tower as well as the No. 52 transmission tower on the Karikachi line (275kW) by the middle of November. It also has considered changing to an alternative route for the transmission line, in order to avoid potential long-term landslide risks. There was also significant damage to distribution networks, with a total of 327 supporting facilities, 295 electric wires, and 428 transformers damaged. As of September 16, 2018, the blackout continued to affect 59 homes in Atsuma Town and Abira Town.[2]

[1] http://www.hepco.co.jp/pdf/18091901.pdf

[2] http://www.hepco.co.jp/pdf/18091601.pdf

[Japan] Chubu Electric Power’s “KatEne” Started a New Service for Customers with Smart Meters to Calculate the Electricity Usage of Individual Household Appliances

On September 2, 2018, Chubu Electric Power’s online service “KatEne” started a new function that calculates and visualizes the electricity usage of each household appliance in a home. Customers can check the electricity usage share of home appliances like air conditioners and electric water heaters without needing to install any additional measuring instruments.

The service is offered for free to customers who installed smart meters in their house. This service collects information such as electricity usage data obtained from smart meters, the current installation situation of household appliances, the outdoor temperature, and the local sunrise and sunset times. Using its own in-house methodologies, Chubu calculates the electricity usage rate of each household appliance and the approximate electricity charge, enabling customers to understand their energy consumption and energy savings.

The “KatEne” service, launched in 2015, is a household customer online service aiming at promoting energy consumption through visible energy-saving information. By the end of March 2019, Chubu also plans to implement add-on functions for customers that have installed solar panels, which will calculate those customers’ precise energy consumption and billing information, and will reflect the energy generation amount from their installed solar systems.

Source: http://www.chuden.co.jp/corporate/publicit...

[Japan] NEDO Initiated a Database System Project to Improve the Operation of Wind Power Generation Facilities

The New Energy and Industrial Technology Development Organization (NEDO) announced on August 23, 2018, that it has initiated a project to develop a database system to improve the operation of wind power generation facilities and reduce their operations and maintenance (O&M) costs.

Wind power generation’s installation and O&M costs in Japan are higher than in other countries. Furthermore, wind turbines in Japan are required to operate under severe weather conditions like typhoons and lightning strikes. In order to increase the installation of wind generation units and enhance their long-term operational stability in harsh environments, it is imperative to increase the reliability of wind turbines as well as reduce additional O&M costs, such as through technological developments to advance generation efficiency and optimize maintenance. The project aims to realize a wind turbine operation rate of 97% or more, and also seeks to reduce the downtime of the wind turbines and their O&M costs.

In this project, NEDO will develop a database system that collects and stores windmill operation data, including operational failure and accident information. The system will also provide failure prediction by utilizing artificial intelligence (AI), analysis of past cases and information on early recovery from malfunctions and accidents.

Source: http://www.nedo.go.jp/news/press/AA5_10101...

[Japan] Kansai Electric Power Reported Current Status of Power Outages due to Damages from Typhoon Jebi and Quick Restoration Measures

Kansai Electric Power announced the current status of widespread power outages due to damage from the powerful Typhoon Jebi, which hit western Japan. As of September 6, 2018, nearly 2,184,000 customers had experienced power failures in the Kansai region of Japan, and 311,000 homes still remained without power. The most devastating blackout area was Osaka Prefecture, with a total of 1.026 million households affected, followed by Hyogo (App. 418,000) and Wakayama (App. 327,000)[1] prefectures.

As a result of the significant damage that the typhoon inflicted on Kansai Electric Power’s transmission and distribution infrastructure, the company will face a prolonged restoration effort. In order to support the efforts to restore power, the company announced on September 5, 2018, that it had requested 40 high-voltage generator cars and approximately 240 utility workers from neighboring power electric companies such as Chugoku Electric Power, Shikoku Electric Power, and Kyushu Electric Power, based on their cooperative assistance agreements regarding emergency disasters. High-voltage generator cars will be connected to distribution equipment to temporarily transmit electricity. However, the installation locations have not yet been determined.[2]

[1] http://www.kepco.co.jp/souhaiden/pr/2018/pdf/0904_32j_00.pdf

[2] http://www.kepco.co.jp/souhaiden/pr/2018/0905_1j.html

[Japan] Osaka Gas and Growing Energy Labs Agreed to Conduct a Joint VPP and Storage Batteries Demonstration Project

On August 7, 2018, Osaka Gas entered into an agreement with a San Francisco-based software start-up company, Growing Energy Labs (Geli), to launch a joint demonstration project to optimize the operation of storage batteries using a virtual power plant (VPP) software platform. The project will be implemented at “NEXT21”, an Osaka Gas experimental housing unit, and at Imazu Ground, another testing site, addressing the needs of residential customers and commercial users respectively. In order to evaluate new Internet of Energy* services using accumulator batteries, the project will adopt Geli’s VPP software platform and energy storage control technology, which is already in use in the U.S. and Australia.

Given the extensive deployment of renewable energy resources in Japan, particularly solar power, it is expected that the need for VPP platforms will increase in the future to address grid instability. In order to acquire key knowledge about VPP and storage battery control technologies, Osaka Gas invested in Geli in March this year, and has been preparing for this demonstration project. As part of the project, the co-optimization between PV self-consumption and the frequency response control will be tested at the NEXT21 site. The Imazu Ground site will be used to evaluate the co-optimization between the demand charge management and the frequency response control, based on the expected customer needs for commercial and industrial use.

* “Internet of Energy” refers to the implementation of Internet of Things (IoT) technologies into distributed energy systems to optimize the efficiency of energy infrastructure and demand-side management.

Source: http://www.osakagas.co.jp/company/press/pr...

[Japan] Osaka Gas Offered a New Electricity Rate Menu “Style Plan” to Meet Customer’s Lifestyle and Individual Needs

Osaka Gas announced on August 1, 2018, that it has started offering a new electricity rate menu “style plan” that corresponds to its customers’ lifestyle and individual needs. As its first step, Osaka Gas began its “Style Plan P” service for Amazon Prime members. Osaka Gas plans to continue to diversify its rate plans by providing different types of electricity rate menus in addition to its existing base rate plan.

Osaka Gas customers that subscribe to the "Style Plan P" service can save money regardless of their electricity usage compared with the total cost of paying for both Amazon Prime’s annual fee and Kansai Electric Power Company's metered electricity “Plan A.” Based on Osaka Gas’s model, the average residential customer will save about 5,400 yen per year.

Furthermore, in April 2018 Osaka Gas began to offer some additional features to its customers in collaboration with Amazon Alexa. Customers can use Alexa’s voice services to check their gas and electricity usage amounts and fees, and can control their gas equipment through the Amazon Echo smart speaker.

Source: http://www.osakagas.co.jp/company/press/pr...

[Japan] NEDO Completed Japan’s First Barge-Type Floating Offshore Wind Power Generation System

On August 10, 2018, the New Energy and Industrial Technology Development Organization (NEDO), along with other industrial partners, completed the development of a demonstration system for a next-generation floating offshore wind power generation system. The system is equipped with Japan’s first barge-type floating body and is paired with a compact 2-blade upwind-type wind turbine, which can be placed in shallow water areas up to a depth of approximately 50m. To ensure its safety even in severe weather and oceanic conditions, the system is equipped with 9 mooring systems, consisting of a combination of stud-less chains and high holding power anchors.

The NEDO-led consortium consists of Marubeni Corporation, Hitachi Zosen, Glocal, EcoPower, University of Tokyo, and Kyuden Mirai Energy. During the development process, Marubeni was responsible for cost analysis and coordinating with related organizations. Hitachi Zosen was engaged in designing the floating bodies, manufacturing, and installation work. Glocal played a central role in turbine selection and mooring systems development, while EcoPower was responsible for the environmental impact assessment. The University of Tokyo oversaw the performance evaluation of the system as well as outreach activities, and Kyuden Mirai Energy was in charge of grid interconnection and power quality evaluation.

NEDO will test the system in the sea area off the coast of Kitakyushu city by connecting electric power cables. After the test, the system will start its demonstration period from this fall to the end of FY2021. The electricity generated by the system will be transmitted to Kyushu Electric Power’s grid system.

Source: http://www.nedo.go.jp/news/press/AA5_10100...

[Japan] TEPCO and Mitsubishi Hitachi Power Systems Jointly Launched a Remote Monitoring Service to Improve the Operational Efficiency of Thermal Power Plants

On July 13, 2018, Tokyo Electric Power Company’s (TEPCO) subsidiary, Tokyo Fuel & Power and Mitsubishi Hitachi Power Systems (MHPS) jointly announced that they had begun to offer a remote monitoring service to improve the operational efficiency of thermal power plants. The service includes the early detection of abnormal conditions, remote monitoring, cause analysis, and countermeasures, by using an IoT platform integrated with data. Their initial customer for the service is the Pagbilao Power Plant in the Philippines, a coal-fired power plant operated by TeaM Energy Corporation. The service will enable the Pagbilao power station to improve its operational efficiency and reduce its future operation and maintenance (O&M) costs. The remote monitoring service is one of the O&M solutions and services that both companies would like to pursue in the region.

                                                                                                       

TEPCO and the MHPS are aiming to establish a joint business that will aggressively provide O&M solutions and services for coal-fired power plants in the Southeast Asia region, where each firm can utilize its own operational infrastructure and existing resources. In September 2016, both companies signed a business alliance agreement to improve the operational efficiency of domestic and overseas thermal power plants. Since then, they have been working together to jointly develop O&M solutions and services for thermal power generation. In April 2017, the two companies began to demonstrate a service for thermal power plants that applied a jointly developed abnormality prediction model. The model integrates TEPCO’s knowledge of O&M solutions with MHPS’ capabilities in design, construction and after-sales services.

Source: http://www.tepco.co.jp/fp/companies-ir/pre...

[Japan] Tohoku Electric Power Launched Customer-Assisted Smarter Project for Monitoring Newly Developed Services

Tohoku Electric Power announced on July 11, 2018 that it has launched a Customer-Assisted Smarter Project, which aims to monitor and verify the effectiveness of new services to ensure comfortable and convenient lifestyles for customers. By using information technologies such as IoT, AI, and communication robots, the project will verify the feasibility and user-friendliness of two newly-developed services: the lifestyle assistance communication robot BOCCO, and a service for providing advice on how to save energy when using home appliances. The project is scheduled to be carried out from July 11, 2018, to the end of August 2019 and the utility is looking for 170 participants to be monitored as part of the project.

The BOCCO robot will demonstrate its multiple remote-control functions, such as helping family members to monitor the current conditions in a house and notify them via smartphones, turning the air conditioner on/off from outside through the devices, and automatically controlling the air conditioning system in a house by predicting the optimal air conditioning operating time, based on weather information and the current temperature and humidity in the room. Separately, the project will also monitor the effectiveness of a service providing consumers with emails or SNS messages with energy-saving advice for home appliances. The service advises customers on how to use home appliances to save energy and reduce costs, based on an electricity usage prediction system that has been jointly developed by Tohoku Electric Power and Mitsubishi Electric, using data collected from smart meters.

Source: http://www.tohoku-epco.co.jp/news/normal/1...

[Japan] Japan Atomic Energy Commission Published the White Paper on Nuclear Energy 2017

On July 5, 2018, the Japan Atomic Energy Commission (JAEC) under the Cabinet Office, government of Japan, published the White Paper on Nuclear Energy 2017. The paper summarizes the current state of the Japanese nuclear energy industry’s development and its nuclear safety activities, and recent changes in attitudes surrounding nuclear energy. It also highlights the importance of stakeholders’ participation in activities, based on lessons learned from the Fukushima accident. The white paper stresses the need to strengthen interactive dialogues between government officials/industry members and the public, encourage public engagement and provide the public with accurate information and objective facts, to reduce public distrust and anxiety about nuclear energy, which remains after 7 years since the accident. The paper also underlines the importance of maintaining the long-term stable use of nuclear power, as it is necessary for greenhouse gas reduction.

The White Paper on Nuclear Energy has been released annually since 1956 through 2010, the year before the Fukushima accident. The subsequent issues after the 2009 edition were suspended, as the Japanese government was responding to the Fukushima accident and was considering the reform of the JAEC at the time. The White Paper was resumed for the first time last year. 

Source: http://www.aec.go.jp/jicst/NC/iinkai/teire...

[Japan] NEDO Published its Annual Report on Wind Power Generation Facilities and Installed Capacity in Japan for FY 2017

On June 28, 2018, New Energy and Industrial Technology Development Organization (NEDO) announced the publication of its annual report on wind power generation facilities and installed capacity in Japan for FY 2017, as of the end of March 2018. The cumulative installed wind power capacity increased by 4.3% from the previous year to about 3.5 million kW, and the installed facilities increased by 2.5% to 2,253 units. In FY 2017, 54 wind power generation facilities with approximately 150,000 kW of capacity were installed.

NEDO publishes an updated report every fiscal year which highlights the current results of Japan’s wind power generation facilities and their installed capacity, based on interview surveys with Japanese power producers. The survey targets all grid-connected wind power energy producers with single-unit output of over 10 kW and total output of 20 kW or more. The survey’s questions include the wind power facility’s operating date, the name of the installer and manufacturer, the location (prefecture and municipality), total output, rated output, and the number of installed wind power facilities, etc.

Source: http://www.nedo.go.jp/news/press/AA5_10098...

[Japan] Hitachi Zosen Developed the Largest Megawatt-Class Solid Polymer-Type Hydrogen Generator

Hitachi Zosen announced that it has developed the largest solid polymer-type hydrogen generator in Japan. The generator uses water electrolysis to produce 200 Nm3/h of hydrogen, and can store surplus electricity at a megawatt-class power generation facility. Hitachi Zosen will launch its demonstration experiments later this year and aims to start sales in FY2019. Hitachi Zosen has been engaged in the development of hydrogen generators since 1974, when it joined the Sunshine Project funded by the Ministry of International Trade and Industry (MITI, now METI, the Ministry of Energy, Trade and Industry).

Hydrogen generators electrolyze water to produce high purity hydrogen that can be stored by using the excessive power generated by renewable energies such as wind and solar. To enlarge its electrolytic cell, which is the heart of the generator, Hitachi Zosen successfully combined electrolytic technology with filter press technology. In addition, the generator is cheap to install, since it is a portable-type generator that can be stored in a 40-ft container.

Source: http://www.hitachizosen.co.jp/news/2018/06...

[Japan] Atomic Energy Association Newly Established to Improve Nuclear Safety

The Japan Atomic Industrial Forum, Inc. (JAIF), a quasi non-governmental organization, announced on June 15, 2018 that it will establish the Atomic Energy Association (ATENA) on July 1st, which will aim to improve nuclear safety by utilizing knowledge and resources from throughout the nuclear industry. The Federation of Electric Power Companies of Japan and the Japan Electrical Manufacturer’s Association have been preparing for ATENA’s establishment since April, and ATENA’s original members will be composed of 19 corporations and organizations, including Japan-based power companies and major manufacturers.

ATENA will play an important role in leading efforts to enhance higher levels of nuclear safety, by promoting the introduction of effective safety measures to tackle the common issues throughout the nuclear industry, opening dialogues with regulators about safety improvements, and by communicating with stakeholders. The organization has set up a Steering Conference where members can participate to identify issues to be addressed in the nuclear industry. An expert working group will carry out technical discussions on various issues. ATENA will also publish an annual technical report with updates on the current progress by nuclear generators in implementing the safety measures.

ATENA will also collaborate with the Japan Nuclear Safety Institute (JANSI) to share information and resources[1], and will support JANSI’s activities. JANSI is a civilian third-party organization established in 2012 in response to the need to improve nuclear plants’ operational safety after the Fukushima Daiichi Nuclear Power Station accident. JANSI encourages and evaluates operators’ efforts to voluntarily improve their performance and adhere to the governments’ regulatory standards.[2]

 

[1] http://www.jaif.or.jp/180615-1

[2] http://www.genanshin.jp/association/establishment.html

[Japan] TEPCO, NEC Corporation, Global Engineering and 17 Other Companies Launched a Virtual Power Plant Project to Aggregate Energy Resources

Tokyo Electric Power, NEC Corporation, Global Engineering and 17 other companies launched a Virtual Power Plant (VPP) Project on June 6, 2018. The project aims to build a VPP to aggregate energy resources. In FY 2018, the group will improve and demonstrate the systems used by Aggregation Coordinators[1] to accommodate changes in electricity energy supply and demand and will examine different approaches to stabilize the distribution system.

Japan has been promoting the introduction of renewable energy as part of its measures to reduce greenhouse gas emissions. However, due to the rapid introduction of renewable energy sources such as photovoltaic power generation, various problems that affect power systems are emerging, such as output fluctuations and excess power generation. TEPCO and its partner companies will work on building a VPP to adjust and distribute energy resources at the megawatt level in order to introduce renewable energy while stabilizing the power system.[2]

This project is being conducted as part of the Ministry of Economy, Trade and Industry (METI)’s FY2018 Demonstration Project on Virtual Power Plant (VPP) Utilizing Demand Side Energy Resources, an initiative that will invest 4 billion yen to fund various VPP demonstration projects over FY 2018. The initiative will focus on implementing control technologies in VPPs with over 50 MW capacity by 2020, as part of METI’s goals to increase renewable energy usage.[3]

[1] Aggregation Coordinators are organizations that aggregate energy resources, which are controlled by resource aggregators through VPP service contracts, and directly trade with transmission/distribution service providers and electricity retailers.

[2] http://www.tepco.co.jp/press/release/2018/1495474_8707.html

[3] Virtual Power Plants - Support From the Government (PDF)

[Japan] NEDO Completed the Construction of a Barge-type Floating Body for Next-Generation Floating Offshore Wind Power Generation System

On June 8, 2018, New Energy and Industrial Technology Development Organization (NEDO) announced that NEDO and Hitachi Zosen Corporation have completed the construction of a barge-type floating body for a next-generation floating offshore wind power generation system. The key feature of the barge-type floating body is that it is smaller and lighter than the standard semi-submersible type floating body. The portion of the structure that is submerged under the water is minimized, which will enable wind farm operators to place this type of floating body in areas with approximately 50m of water depth.

This summer NEDO will set up the system, loading the floating body with a wind turbine and power cables at the demonstration site, which is approximately 15 km away from the Hibikinada district of the Kitakyushu Port. The system will start its actual operation this fall.

Based on the foundation structure supporting the wind turbine, offshore wind power generation can generally be divided into “bottom-mounted foundations,” which are fixed structures connected to the offshore foundations, and “floating-type” structures where the foundation is floating on the sea. According to NEDO’s research, the economic efficiency of floating-type wind power generation is higher than bottom-mounted wind power generation in the areas above 50m of water depth. In order to accelerate the introduction of offshore wind power generation, in addition to developing bottom-mounted wind power generation, it is essential for Japan to develop floating offshore wind power generation systems that can be placed into a wider area of shallow water, which led NEDO to conduct this demonstration project.

Source: http://www.nedo.go.jp/news/press/AA5_10097...

[Japan] Japan’s METI Released the 2018 Energy White Paper

On June 8, 2018, Japan’s Ministry of Economy, Trade and Industry (METI) Agency for Natural Resources and Energy released its FY 2017 Annual Report on Energy. The Annual Report on Energy (also known as the “Energy White Paper”) provides the status of Japan's energy policy measures and is submitted annually to the Diet as a requirement of Article 11 of the Basic Act on Energy Policy.

The Energy White Paper provides the current state of energy security, an outline of the energy measures that Japan achieved in FY2017, and current trends in energy policy and energy supply and demand. The 2017 White Paper covers the following topics: Japan’s history of energy usage since the Meiji Restoration; progress in decommissioning the unit 1-4 reactors at the Fukushima Daiichi Nuclear Power Station and the status of the station’s reconstruction; and the energy situation within and outside of Japan, including the potential challenges to achieving Japan’s goals for its 2030 energy mix, as well as the expectations for future challenges up to 2050.

The Energy White Paper is developed based on Japan’s Strategic Energy Plan, which is the national energy policy that sets the vision and strategies to meet Japan’s long-term energy needs, according to the Energy Policy Act of 2002. METI’s Advisory Committee for Natural Resources and Energy released the outline for the 5th Strategic Energy Plan on April 27, 2018, which is further described in the JEPIC newsletter article " Ministry of Economy, Trade and Industry (METI) released the outline for Japan’s Strategic Energy Plan." [1]

*The English language outline of the Energy White Paper 2018 has been released on METI’s website.[2]

[1] http://www.meti.go.jp/press/2018/06/20180608005/20180608005.html

[2] http://www.meti.go.jp/english/press/2018/pdf/0608_001a.pdf