This table contains figures on the supply and consumption of energy broken down by sector and by energy commodity. The energy supply is equal to the indigenous production of energy plus the receipts minus the deliveries of energy plus the stock changes. Consumption of energy is equal to the sum of own use, distribution losses, final energy consumption, non-energy use and the total net energy transformation. For each sector, the supply of energy is equal to the consumption of energy.

For some energy commodities, the total of the observed domestic deliveries is not exactly equal to the sum of the observed domestic receipts. For these energy commodities, a statistical difference arises that can not be attributed to a sector.

The breakdown into sectors follows mainly the classification as is customary in international energy statistics. This classification is based on functions of various sectors in the energy system and for several break downs on the international Standard Industrial Classification (SIC). There are two main sectors: the energy sector (companies with main activity indigenous production or transformation of energy) and energy consumers (other companies, vehicles and dwellings). In addition to a breakdown by sector, there is also a breakdown by energy commodity, such as coal, various petroleum products, natural gas, renewable energy, electricity and heat and other energy commodities like non renewable waste.

The definitions used in this table are exactly in line with the definitions in the Energy Balance table; supply, transformation and consumption. That table does not contain a breakdown by sector (excluding final energy consumption), but it does provide information about imports, exports and bunkering and also provides more detail about the energy commodities.

Data available: From: 1990.

Status of the figures: Figures up to and including 2022 are definite. Figures for 2023 are revised provisional.

Changes as of November 15th 2024: The structure of the table has been adjusted. The adjustment concerns the division into sectors, with the aluminum industry now being distinguished separately within the non-ferrous metal sector. This table has also been revised for 2015 to 2021 as a result of new methods that have also been applied for 2022 and 2023. This concerns the following components: final energy consumption of LPG, distribution of final energy consumption of motor gasoline, sector classification of gas oil/diesel within the services and transfer of energy consumption of the nuclear industry from industry to the energy sector. The natural gas consumption of the wood and wood products industry has also been improved so that it is more comparable over time. This concerns changes of a maximum of a few PJ.

Changes as of June 7th 2024: Revised provisional figures of 2023 have been added.

Changes as of April 26th of 2024 The energy balance has been revised for 2015 and later on a limited number of points. The most important is the following: 1. For solid biomass and municipal waste, the most recent data have been included. Furthermore data were affected by integration with figures for a new, yet to be published StatLine table on the supply of solid biomass. As a result, there are some changes in receipts of energy, deliveries of energy and indigenous production of biomass of a maximum of a few PJ. 2. In the case of natural gas, an improvement has been made in the processing of data for stored LNG, which causes a shift between stock changes, receipts of energy and deliveries of energy of a maximum of a few PJ.

Changes as of March 25th of 2024: The energy balance has been revised and restructured. This concerns mainly the following: 1. Different way of dealing with biofuels that have been mixed with fossil fuels 2. A breakdown of the natural gas balance of agriculture into greenhouse horticulture and other agriculture. 3. Final consumption of electricity in services

1. Blended biofuels Previously, biofuels mixed with fossil fuels were counted as petroleum crude and products. In the new energy balance, blended biofuels count for renewable energy and petroleum crude and products and the underlying products (such as gasoline, diesel and kerosene) only count the fossil part of mixtures of fossil and biogenic fuels. To make this clear, the names of the energy commodities have been changed. The consequence of this adjustment is that part of the energy has been moved from petroleum to renewable. The energy balance remains the same for total energy commodities. The aim of this adjustment is to make the increasing role of blended biofuels in the Energy Balance visible and to better align with the Energy Balances published by Eurostat and the International Energy Agency. Within renewable energy, biomass, liquid biomass is now a separate energy commodity. This concerns both pure and blended biofuels.

2. Greenhouse horticulture separately The energy consumption of agriculture in the Netherlands largely takes place in greenhouse horticulture. There is therefore a lot of attention for this sector and the need for separate data on energy consumption in greenhouse horticulture. To meet this need, the agriculture sector has been divided into two subsectors: Greenhouse horticulture and other agriculture. For the time being, we only publish separate natural gas figures for greenhouse horticulture.

3. Higher final consumption of electricity in services in 2021 and 2022. The way in which electric road transport is treated has improved, resulting in an increase in the supply and final consumption of electricity in services by more than 2 PJ in 2021 and 2022. This also works through the supply of electricity in sector H (Transport and storage).

Changes as of November 14th 2023: Figures for 2021 and 2022 haven been adjusted. Figures for the Energy Balance for 2015 to 2020 have been revised regarding the following items: - For 2109 and 2020 final consumption of heat in agriculture is a few PJ lower and for services a few PJ higher. This is the result of improved interpretation of available data in supply of heat to agriculture. - During the production of geothermal heat by agriculture natural gas is produced as by-product. Now this is included in the energy balance. The amount increased from 0,2 PJ in 2015 to 0,7 PJ in 2020. - There are some improvements in the data for heat in industry with a magnitude of about 1 PJ or smaller. - There some other improvements, also about 1 PJ or smaller.

Changes as of June 15th 2023: Revised provisional figures of 2022 have been added.

Changes as of December 15th 2022: Figures for 1990 up to and including 2019 have been revised. The revision mainly concerns the consumption of gas- and diesel oil and energy commodities higher in the classification (total petroleum products, total crude and petroleum produtcs and total energy commodities). The revision is twofold: - New data for the consumption of diesel oil in mobile machine have been incorporated. Consequently, the final energy consumption of gas- and diesel oil in construction, services and agriculture increases. The biggest change is in construction (+10 PJ from 1990-2015, decreasing to 1 PJ in 2019. In agriculture the change is about 0.5-1.5 PJ from 2010 onwards and for services the change is between 0 and 3 PJ for the whole period. - The method for dealing with the statistical difference has been adapted. Earlier from 2013 onwards a difference of about 3 percent was assumed, matching old data (up to and including 2012) on final consumption of diesel for road transport based on the dedicated tax specifically for road that existed until 2012. In the new method the statistical difference is eliminated from 2015 onwards. Final consumption of road transport is calculated as the remainder of total supply to the market of diesel minus deliveries to users other than road transport. The first and second item affect both final consumption of road transport that decreases consequently about 5 percent from 2015 onwards. Before the adaption of the tax system for gas- and diesel oil in 2013 the statistical difference was positive (more supply than consumption). With the new data for mobile machines total consumption has been increased and the statistical difference has been reduced and is even negative for a few years.

Changes as of 1 March 2022: Figures for 1990 up to and including 2020 have been revised. The most important change is a different way of presenting own use of electricity of power-generating installations. Previously, this was regarded as electricity and CHP transformation input. From now on, this is seen as own use, as is customary in international energy statistics. As a result, the input and net energy transformation decrease and own use increases, on average about 15 PJ per year. Final consumers also have power generating installations. That's why final consumers now also have own use, previously this was not so. In the previous revision of 2021, the new sector blast furnaces was introduced for the years 2015 up to and including 2020, which describes the transformation of coke oven coke and coking coal into blast furnace gas that takes place in the production of pig iron from iron ore. This activity was previously part of the steel industry. With this revision, the change has been put back to 1990.

When will new figures be published? Revised provisional figures: June/July of the following year. Definite figures: December of the second following year.

Global Energy Consumption in Industry by Country, 2023 Discover more data with ReportLinker!

Global primary energy consumption has increased dramatically in recent years and is projected to continue to increase until 2045. Only hydropower and renewable energy consumption are expected to increase between 2045 and 2050 and reach 30 percent of the global energy consumption. Energy consumption by country The distribution of energy consumption globally is disproportionately high among some countries. China, the United States, and India were by far the largest consumers of primary energy globally. On a per capita basis, it was Qatar, Singapore, the United Arab Emirates, and Iceland to have the highest per capita energy consumption. Renewable energy consumption Over the last two decades, renewable energy consumption has increased to reach over 90 exajoules in 2023. Among all countries globally, China had the largest installed renewable energy capacity as of that year, followed by the United States.

United States US: Renewable Energy Consumption: % of Total Final Energy Consumption data was reported at 8.717 % in 2015. This records a decrease from the previous number of 8.754 % for 2014. United States US: Renewable Energy Consumption: % of Total Final Energy Consumption data is updated yearly, averaging 5.454 % from Dec 1990 (Median) to 2015, with 26 observations. The data reached an all-time high of 8.754 % in 2014 and a record low of 4.089 % in 1994. United States US: Renewable Energy Consumption: % of Total Final Energy Consumption data remains active status in CEIC and is reported by World Bank. The data is categorized under Global Database’s USA – Table US.World Bank: Energy Production and Consumption. Renewable energy consumption is the share of renewables energy in total final energy consumption.; ; World Bank, Sustainable Energy for All (SE4ALL) database from the SE4ALL Global Tracking Framework led jointly by the World Bank, International Energy Agency, and the Energy Sector Management Assistance Program.; Weighted Average;

Over the past half a century, the world's electricity consumption has continuously grown, reaching approximately 27,000 terawatt-hours by 2023. Between 1980 and 2023, electricity consumption more than tripled, while the global population reached eight billion people. Growth in industrialization and electricity access across the globe have further boosted electricity demand. China's economic rise and growth in global power use Since 2000, China's GDP has recorded an astonishing 15-fold increase, turning it into the second-largest global economy, behind only the United States. To fuel the development of its billion-strong population and various manufacturing industries, China requires more energy than any other country. As a result, it has become the largest electricity consumer in the world. Electricity consumption per capita In terms of per capita electricity consumption, China and other BRIC countries are still vastly outpaced by developed economies with smaller population sizes. Iceland, with a population of less than half a million inhabitants, consumes by far the most electricity per person in the world. Norway, Qatar, Canada, and the United States also have among the highest consumption rates. Multiple contributing factors such as the existence of power-intensive industries, household sizes, living situations, appliance and efficiency standards, and access to alternative heating fuels determine the amount of electricity the average person requires in each country.

Jordan JO: Renewable Energy Consumption: % of Total Final Energy Consumption data was reported at 3.229 % in 2015. This records an increase from the previous number of 3.131 % for 2014. Jordan JO: Renewable Energy Consumption: % of Total Final Energy Consumption data is updated yearly, averaging 2.332 % from Dec 1990 (Median) to 2015, with 26 observations. The data reached an all-time high of 3.229 % in 2015 and a record low of 1.688 % in 2005. Jordan JO: Renewable Energy Consumption: % of Total Final Energy Consumption data remains active status in CEIC and is reported by World Bank. The data is categorized under Global Database’s Jordan – Table JO.World Bank: Energy Production and Consumption. Renewable energy consumption is the share of renewables energy in total final energy consumption.; ; World Bank, Sustainable Energy for All (SE4ALL) database from the SE4ALL Global Tracking Framework led jointly by the World Bank, International Energy Agency, and the Energy Sector Management Assistance Program.; Weighted Average;

Global Integrated Energy Model is a comprehensive energy demand model, covering long-term energy demand outlook at the country, sector and fuel levels.

Kuwait KW: Renewable Energy Consumption: % of Total Final Energy Consumption data was reported at 0.000 % in 2015. This stayed constant from the previous number of 0.000 % for 2014. Kuwait KW: Renewable Energy Consumption: % of Total Final Energy Consumption data is updated yearly, averaging 0.000 % from Dec 1990 (Median) to 2015, with 26 observations. The data reached an all-time high of 0.354 % in 1991 and a record low of 0.000 % in 2015. Kuwait KW: Renewable Energy Consumption: % of Total Final Energy Consumption data remains active status in CEIC and is reported by World Bank. The data is categorized under Global Database’s Kuwait – Table KW.World Bank: Energy Production and Consumption. Renewable energy consumption is the share of renewables energy in total final energy consumption.; ; World Bank, Sustainable Energy for All (SE4ALL) database from the SE4ALL Global Tracking Framework led jointly by the World Bank, International Energy Agency, and the Energy Sector Management Assistance Program.; Weighted average;

According to Cognitive Market Research, the worldwide Energy Management Systems market will be USD 57.31 billion in 2024 and will expand at a compounded annual growth rate (CAGR) of 14.3% from 2024 to 2031. Market Dynamics of Energy Management Systems Market

Key Drivers for Energy Management Systems Market

Government initiatives to combat climate change and improve energy efficiency - Energy-efficient factories use less energy to make things, and power-efficient dwellings and structures use less energy for cooling, heating, and power appliances and electronics. Organizations are understanding the value of advertising their energy conservation measures as the Go Green movement gains traction. Establishing themselves as an environmentally conscious business gives them a competitive advantage by fostering consumer trust and community recognition. Leading international corporations are now deeply committed to sustainable energy and are concentrating on becoming environmentally friendly.
In the ensuing decades, digital technology will revolutionize the global energy system, bringing forth increased connectivity, dependability, and sustainability. Massive data sets, pervasive connectivity, and advances in AI are opening up new commercial opportunities and applications.

Key Restraints for Energy Management Systems Market

Every industry seeks to reduce its expenditures on consumption. Energy management systems are needed to track the energy usage of various machinery and plants. While implementing it may result in significant long-term cost and energy savings, significant upfront investments are necessary.
The main issue with energy efficiency is that small and medium-sized enterprises around the world are largely unaware of it. They are reluctant to spend money on energy-saving devices and need to be made aware of the advantages and policies that energy management systems can help them achieve.

Introduction of the Energy Management Systems Market

Power transmission system operation can be observed, evaluated, and optimized with the use of an EMS. Numerous sectors and EMS implementations use this system extensively. A surge in strategic investments to control energy usage has led to an increase in demand across public, commercial, residential, and industrial sectors of businesses. Regional governments all over the world have passed several rules and regulations to lower energy usage and raise public awareness of energy conservation. The EMS market is propelled forward by these laws and policies in sectors including the commercial, residential, and industrial ones. Governments in several nations are pursuing decarbonization, which entails many procedures. Many nations have implemented or are in the process of implementing energy consumption and carbon footprint reduction guidelines and rules in response to the sharp increase in carbon emission rates. Reducing carbon footprints at a reasonable cost can be achieved through efficient energy utilization.

In 2022, the global electricity consumption from data centers, artificial intelligence, and cryptocurrencies amounted to 460 terawatt-hours. By 2026, this figure will range between 620 and 1,050 terawatt-hours, depending on the future deployment of these technologies. Data centers, AI, and crypto will then account for a large share of the global electricity consumption, up from only some two percent in 2022.

Abstract: Measurements of electric power consumption in one household with a one-minute sampling rate over a period of almost 4 years. Different electrical quantities and some sub-metering values are available.

Source: Georges Hebrail (georges.hebrail '@' edf.fr), Senior Researcher, EDF R&D, Clamart, France Alice Berard, TELECOM ParisTech Master of Engineering Internship at EDF R&D, Clamart, France

Data Set Information: This archive contains 2075259 measurements gathered in a house located in Sceaux (7km of Paris, France) between December 2006 and November 2010 (47 months). Notes:

(global_active_power*1000/60 - sub_metering_1 - sub_metering_2 - sub_metering_3) represents the active energy consumed every minute (in watt hour) in the household by electrical equipment not measured in sub-meterings 1, 2 and 3. The dataset contains some missing values in the measurements (nearly 1,25% of the rows). All calendar timestamps are present in the dataset but for some timestamps, the measurement values are missing: a missing value is represented by the absence of value between two consecutive semi-colon attribute separators. For instance, the dataset shows missing values on April 28, 2007.

Attribute Information:

date: Date in format dd/mm/yyyy time: time in format hh:mm:ss global_active_power: household global minute-averaged active power (in kilowatt) global_reactive_power: household global minute-averaged reactive power (in kilowatt) voltage: minute-averaged voltage (in volt) global_intensity: household global minute-averaged current intensity (in ampere) sub_metering_1: energy sub-metering No. 1 (in watt-hour of active energy). It corresponds to the kitchen, containing mainly a dishwasher, an oven and a microwave (hot plates are not electric but gas powered). sub_metering_2: energy sub-metering No. 2 (in watt-hour of active energy). It corresponds to the laundry room, containing a washing-machine, a tumble-drier, a refrigerator and a light. sub_metering_3: energy sub-metering No. 3 (in watt-hour of active energy). It corresponds to an electric water-heater and an air-conditioner.

Relevant Papers: N/A

Citation Request: This dataset is made available under the “Creative Commons Attribution 4.0 International (CC BY 4.0)” license

Success.ai’s Oil & Gas Data with B2B CEO Contact Data for Global Energy Sector Executives offers businesses a powerful solution to connect with key decision-makers, influencers, and industry leaders across the energy spectrum. Drawing from over 170 million verified professional profiles, this dataset includes work emails, phone numbers, and enriched profiles of executives in oil and gas, renewable energy, utilities, and other energy-related sectors. Whether you’re targeting CEOs, operations managers, or sustainability directors, Success.ai ensures that you have the accurate and relevant information needed for effective outreach and strategic engagement.

Why Choose Success.ai’s Energy Sector Executive Data?

1. Comprehensive Contact Information
2. Access verified work emails, direct phone numbers, and LinkedIn profiles for executives and decision-makers in the global energy industry.

3. AI-driven validation ensures 99% accuracy, providing reliable data for sales, marketing, and partnership initiatives.

4. Global Reach Across Energy Verticals

5. Includes profiles of leaders in oil and gas, renewable energy, utilities, nuclear power, and emerging energy technologies.

6. Covers regions such as North America, Europe, Asia-Pacific, South America, and the Middle East, helping you connect with executives in established and emerging markets.

7. Continuously Updated Datasets

8. Real-time updates keep your data current, ensuring that your outreach remains timely, relevant, and competitive in a rapidly evolving industry.

9. Ethical and Compliant

10. Adheres to GDPR, CCPA, and other global data privacy regulations, ensuring that all outreach and engagement strategies are ethically sourced and legally compliant.

Data Highlights

• 170M+ Verified Professional Profiles: Includes energy sector executives, managers, and thought leaders worldwide.
• 50M Work Emails: AI-validated for precise and effective communication.
• 30M Company Profiles: Deep insights into energy companies and their key personnel for informed targeting.
• 700M Global Professional Profiles: Enriched datasets to support comprehensive, scalable business strategies.

Key Features of the Dataset:

1. Energy Sector Decision-Maker Profiles
2. Identify and engage with C-suite executives, operations managers, sustainability directors, and other key influencers in the energy sector.

3. Connect with professionals who shape policy, direct investments, and lead initiatives in traditional and renewable energy fields.

4. Advanced Filters for Precision Targeting

5. Filter by industry segment (oil, gas, wind, solar, hydro, nuclear), company size, geographic location, and specific roles to focus your outreach on relevant contacts.

6. Refine campaigns to maximize engagement and conversion rates.

7. AI-Driven Enrichment

8. Profiles enriched with actionable data deliver valuable insights, ensuring that each interaction is timely, informed, and impactful.

Strategic Use Cases:

1. Sales and Business Development
2. Present technology solutions, equipment, or consulting services directly to decision-makers in the energy sector.

3. Forge relationships with executives responsible for procurement, strategic partnerships, and operational efficiency.

4. Marketing and Brand Awareness

5. Launch targeted campaigns to promote energy-related software, sustainable energy solutions, or investment opportunities.

6. Leverage accurate contact data to increase engagement and drive better campaign results.

7. Investment and M&A Activities

8. Connect with key players in energy startups, established utilities, and global energy conglomerates exploring mergers, acquisitions, or investment deals.

9. Identify the right decision-makers to streamline negotiations and capital deployment.

10. Sustainable and Renewable Energy Initiatives

11. Engage leaders in the renewable energy space to foster partnerships, promote clean energy solutions, and encourage sustainable practices.

12. Position your business as a strategic ally in achieving long-term environmental and economic goals.

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4. Incorporate the data into your CRM or marketing automation tools using APIs or custom download formats.

5. Data Accuracy with AI Validation

6. Trust in 99% data accuracy for confident decision-making, strategic targeting, and consistent outreach results.

7. Customizable and Scalable Solutions

8. Tailor datasets to meet your unique objectives, whether focusing on a specific region, energy vertical, or company size.

APIs for Enhanced Functionality:

1. Data Enrichment API

2. Enrich your existing records with verified contact data for energy sector executives, improving targeting and personalization.

3. Lead Generation API

4. Automate lead...

In 2023, it was estimated that artificial intelligence represented a power consumption of 4.5 gigawatts worldwide, or eight percent of total power consumption in data centers that year. AI's power consumption is expected to grow significantly in the next five years, forecast at 14 to 18.7 gigawatts in 2028. That would account for up to 20 percent of data center power consumption that year.

ESG DATA PRODUCT DESCRIPTION

This ESG dataset offers comprehensive coverage of corporate energy management across thousands of global companies. Our data captures detailed patterns of energy consumption, production, and distribution, providing granular insights into various energy types—including electricity and heat—and the technologies (e.g. solar PV, hydropower...) and sources (e.g. biofuels, coal, natural gas...) utilized. With thorough information on renewability and rigorous standardization of every energy metrics, this dataset enables precise benchmarking, cross-sector comparisons, and strategic decision-making for sustainable energy practices.

Built on precision and transparency, the energy dataset adheres to the highest standards of ESG data quality. Every data point is fully traceable to its original source, ensuring unmatched reliability and accuracy. The dataset is continuously updated to capture the most current and complete information, including revisions, new disclosures, and regulatory updates.

ESG DATA PRODUCT CHARACTERISTICS

• Company Coverage:              5,000+ companies • Geographical Coverage:       Global • Sectorial Coverage:                All sectors • Data Historical Range:           2014 - 2024 • Median Data History:             5 years • Data Traceability Rate:           100% • Data Frequency:                     Annual • Average Reporting Lag:         3 months • Data Format:                            Most Recent/Point-in-Time

UNIQUE DATA VALUE PROPOSITION

Uncompromised Standardization

When company energy data do not align with standard energy reporting frameworks, our team of environmental engineers meticulously maps the reported figures to the correct energy types and flow categories. This guarantees uniformity and comparability across our dataset, bridging the gap created by diverse reporting formats.

Precision in Every Figure

Our advanced cross-source data precision matching algorithm ensures that the most accurate energy metrics are always delivered. For instance, an exact figure like 12,510,545 Joules is prioritized over a rounded figure like 12mio, reflecting our dedication to precision and detail.

Unbiased Data Integrity

Our approach is grounded in delivering energy data exactly as reported by companies, without making inferences or estimates for undisclosed data. This strict adherence to factual reporting ensures the integrity of the data you receive, providing an unaltered and accurate view of corporate emissions.

End-to-End Data Traceability

Every energy data point is directly traceable to its original source, complete with page references and calculation methodologies. This level of detail ensures the reliability and verifiability of our data, giving you complete confidence in our energy dataset.

Full-Scope Boundary Verification

We tag energy figures that do not cover a company's entire operational boundaries with an 'Incomplete Boundaries' attribute. This transparency ensures that any potential limitations are clearly communicated, enhancing the comparability of our energy data.

USE CASES

Asset Management

Asset Management firms use energy data to benchmark portfolio companies against industry standards, ensuring alignment with net-zero goals and regulatory frameworks like SFDR and TCFD. They assess energy transition risks, track renewable energy adoption, and develop sustainable investment products focused on energy efficiency and climate-conscious innovation.

Financial Institutions & Banking

Financial Institutions & Banking integrate energy data into credit risk assessments and sustainability-linked loans, ensuring borrowers meet renewable energy targets. They also enhance due diligence processes, comply with climate disclosure regulations, and validate green bond frameworks with precise renewable energy metrics.

FinTech

FinTech companies leverage energy data to automate regulatory reporting, power energy management analytics, and develop APIs that assess corporate climate risk. They also build sustainable investment tools that enable investors to prioritize companies excelling in energy efficiency and renewability.

GreenTech & ClimateTech

GreenTech & ClimateTech firms use predictive energy analytics to model energy transition risks and renewable adoption trends. They optimize supply chains, facilitate renewable energy procurement, and assess the environmental and financial impacts of energy investments, supporting PPAs and carbon credit markets.

Corporates

Corporates rely on energy data for performance benchmarking, renewable energy procurement, and transition planning. By analyzing detailed energy consumption and sourcing metrics, they optimize sustainability strategies and improve energy efficiency.

Professional Services & Consulting

Professional Services & Consulting firms use energy data to advise on energy transitions, regulatory complia...

Success.ai’s Energy Consumption Data for European Energy Companies provides valuable insights into the operational landscapes of energy firms across Europe. Drawing from over 30 million verified company profiles, this dataset includes detailed information on energy consumption patterns, firmographic attributes, and decision-maker contacts within the European energy sector. Whether you are introducing smart grid technologies, offering renewable energy solutions, or analyzing regional consumption trends, Success.ai ensures that your strategic initiatives are informed by accurate, continuously updated, and AI-validated data.

Why Choose Success.ai’s European Energy Consumption Data?

1. Comprehensive Energy Company Insights

   • Access verified business locations, firmographic details, and key decision-maker profiles of utilities, independent power producers, grid operators, renewable energy firms, and energy consultancies.
   • AI-driven validation ensures 99% accuracy, allowing you to engage confidently with relevant stakeholders and reduce misdirected outreach.

2. Regional Focus on the European Market

   • Includes data on energy companies operating in the EU, EFTA countries, and neighboring markets, covering a wide range of regulatory environments and energy infrastructures.
   • Understand consumption patterns influenced by policy changes, seasonal demand fluctuations, and technological adoption rates unique to the European context.

3. Continuously Updated Datasets

   • Real-time updates reflect shifts in energy portfolios, leadership changes, market consolidations, and evolving consumption trends.
   • Keep pace with the dynamic European energy landscape, ensuring timely and relevant engagement opportunities.

4. Ethical and Compliant

   • Adheres to GDPR, CCPA, and other global data privacy regulations, guaranteeing that your use of this data respects legal standards and industry best practices.

Data Highlights

• 30M+ Verified European Energy Companies Profiles: Includes energy firms across generation, transmission, distribution, and supply segments.
• Firmographic Details: Gain insights into company sizes, ownership structures, operational capacities, and geographic presence.
• Decision-Maker Contacts: Identify and connect with executives, energy managers, procurement officers, and regulatory liaisons influencing company strategies.
• Consumption Trends: Understand patterns related to energy sourcing, load management, efficiency initiatives, and sustainability goals.

Key Features of the Dataset:

1. Energy Sector Decision-Maker Profiles

   • Identify CEOs, CTOs, heads of procurement, and sustainability officers who shape purchasing decisions, investment priorities, and policy compliance.
   • Target professionals responsible for implementing new technologies, optimizing grids, and meeting regulatory benchmarks.

2. Advanced Filters for Precision Targeting

   • Filter companies by energy source (renewable, fossil, nuclear), size, region, or energy consumption levels.
   • Tailor campaigns to align with market maturity, environmental policies, grid integration projects, or decarbonization targets.

3. AI-Driven Enrichment

   • Profiles are enriched with actionable data, enabling you to customize messaging, highlight unique value propositions, and improve engagement outcomes with energy stakeholders.

Strategic Use Cases:

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   • Offer smart metering solutions, energy storage systems, or efficiency consulting services to grid operators, utilities, and industrial energy consumers.
   • Engage decision-makers who oversee supplier selection, technology adoption, and capital expenditure programs.

2. Market Research and Competitive Analysis

   • Analyze regional consumption patterns, emerging technologies, and demand-side management strategies to inform product development and pricing models.
   • Benchmark against leading firms to identify market gaps, growth opportunities, and evolving consumer preferences.

3. Regulatory Compliance and Sustainability Initiatives

   • Connect with energy companies focusing on sustainability, emission reductions, and compliance with EU energy directives.
   • Present solutions that help meet renewable energy mandates, improve energy storage capacity, or enhance grid resilience.

4. Investment and Project Financing

   • Identify energy firms and infrastructure projects ripe for investment, joint ventures, or green financing opportunities.
   • Reach out to executives managing portfolios, expansion plans, and risk management strategies in the European energy domain.

Why Choose Success.ai?

1. Best Price Guarantee

   • Access high-quality, verified data at competitive prices, ensuring cost-effective strategies for market entry, partnership building, or product deployment.

2. Seamless Integration

   • Integrate verified ene...

Iran IR: Renewable Energy Consumption: % of Total Final Energy Consumption data was reported at 0.913 % in 2015. This records a decrease from the previous number of 0.939 % for 2014. Iran IR: Renewable Energy Consumption: % of Total Final Energy Consumption data is updated yearly, averaging 0.926 % from Dec 1990 (Median) to 2015, with 26 observations. The data reached an all-time high of 1.528 % in 1993 and a record low of 0.438 % in 2000. Iran IR: Renewable Energy Consumption: % of Total Final Energy Consumption data remains active status in CEIC and is reported by World Bank. The data is categorized under Global Database’s Iran – Table IR.World Bank: Energy Production and Consumption. Renewable energy consumption is the share of renewables energy in total final energy consumption.; ; World Bank, Sustainable Energy for All (SE4ALL) database from the SE4ALL Global Tracking Framework led jointly by the World Bank, International Energy Agency, and the Energy Sector Management Assistance Program.; Weighted Average;

China Energy Consumption: Industry data was reported at 3,637.820 SCE Ton mn in 2022. This records an increase from the previous number of 3,485.510 SCE Ton mn for 2021. China Energy Consumption: Industry data is updated yearly, averaging 1,393.498 SCE Ton mn from Dec 1980 (Median) to 2022, with 39 observations. The data reached an all-time high of 3,637.820 SCE Ton mn in 2022 and a record low of 389.860 SCE Ton mn in 1980. China Energy Consumption: Industry data remains active status in CEIC and is reported by National Bureau of Statistics. The data is categorized under Global Database’s China – Table CN.RBB: Energy Consumption.

The Global Power Plant Database is a comprehensive, open source database of power plants around the world. It centralizes power plant data to make it easier to navigate, compare and draw insights for one’s own analysis. The database covers approximately 35,000 power plants from 167 countries and includes thermal plants (e.g. coal, gas, oil, nuclear, biomass, waste, geothermal) and renewables (e.g. hydro, wind, solar). Each power plant is geolocated and entries contain information on plant capacity, generation, ownership, and fuel type. It will be continuously updated as data becomes available.

The methodology for the dataset creation is given in the World Resources Institute publication "A Global Database of Power Plants". Data updates may occur without associated updates to this manuscript.

The database can be visualized on Resource Watch together with hundreds of other datasets.

The database is available for immediate download and use through the WRI Open Data Portal.

Associated code for the creation of the dataset can be found on GitHub. The bleeding-edge version of the database (which may contain substantial differences from the release you are viewing) is available on GitHub as well.

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Success.ai’s Energy Consumption Data for Middle-east Energy Professionals offers a comprehensive dataset tailored for businesses and organizations seeking to connect with leaders and decision-makers in the energy sector. Covering roles such as energy consultants, project managers, engineers, and executives, this dataset provides verified work emails, phone numbers, and detailed decision-maker profiles.

With access to over 700 million verified global profiles, Success.ai ensures your outreach, research, and collaboration strategies are powered by accurate, continuously updated, and AI-validated data. Backed by our Best Price Guarantee, this solution empowers you to navigate the dynamic and fast-evolving energy landscape in the Middle-east.

Why Choose Success.ai’s Energy Consumption Data?

1. Verified Contact Data for Precision Targeting

   • Access verified work emails, phone numbers, and LinkedIn profiles of energy sector professionals across the Middle-east.
   • AI-driven validation ensures 99% accuracy, improving engagement rates and minimizing errors in outreach.

2. Comprehensive Coverage Across the Middle-east

   • Includes professionals from key energy-producing countries such as Saudi Arabia, UAE, Qatar, Oman, Kuwait, and Bahrain.
   • Gain insights into regional energy trends, consumption patterns, and emerging technologies.

3. Continuously Updated Datasets

   • Real-time updates capture changes in roles, organizational structures, and market developments.
   • Stay aligned with industry trends to identify opportunities and remain competitive in the energy sector.

4. Ethical and Compliant

   • Fully adheres to GDPR, CCPA, and other global privacy regulations, ensuring responsible and lawful data usage.

Data Highlights:

• 700M+ Verified Global Profiles: Connect with energy professionals and decision-makers across the Middle-east.
• Verified Contact Details: Gain work emails, phone numbers, and LinkedIn profiles for precise targeting.
• Decision-maker Profiles: Access profiles of executives, consultants, and project managers responsible for energy initiatives and consumption strategies.
• Industry Insights: Understand energy consumption trends, market challenges, and emerging technologies in the Middle-east.

Key Features of the Dataset:

1. Comprehensive Energy Professional Profiles

   • Identify and connect with professionals overseeing energy projects, regulatory compliance, and operational efficiency in the energy sector.
   • Target decision-makers involved in renewable energy, oil and gas, and energy infrastructure projects.

2. Advanced Filters for Precision Campaigns

   • Filter professionals by industry focus (renewables, oil and gas, utilities), geographic location, or job function.
   • Tailor campaigns to align with specific energy needs, such as efficiency improvements, technology adoption, or sustainability goals.

3. Regional and Sector-specific Insights

   • Leverage data on energy trends, regulatory frameworks, and consumption patterns in the Middle-east.
   • Refine marketing and outreach strategies to align with regional priorities and opportunities.

4. AI-Driven Enrichment

   • Profiles enriched with actionable data allow for personalized messaging, highlight unique value propositions, and improve engagement outcomes.

Strategic Use Cases:

1. Marketing Campaigns and Lead Generation

   • Promote energy solutions, technology innovations, or consultancy services to energy professionals in the Middle-east.
   • Use verified contact data for multi-channel outreach, including email, phone, and social media campaigns.

2. Partnership Development and Collaboration

   • Build relationships with energy companies, utilities, and regulatory agencies seeking strategic alliances or innovative solutions.
   • Foster collaborations that drive efficiency, sustainability, or renewable energy adoption.

3. Market Research and Competitive Analysis

   • Analyze energy consumption trends, technological advancements, and regulatory changes across the Middle-east.
   • Benchmark against competitors to identify market gaps and high-demand solutions.

4. Recruitment and Talent Acquisition

   • Target HR professionals and hiring managers recruiting for roles in energy management, engineering, or project leadership.
   • Provide workforce optimization platforms or training solutions tailored to the energy sector.

Why Choose Success.ai?

1. Best Price Guarantee

   • Access premium-quality energy consumption data at competitive prices, ensuring strong ROI for your outreach, marketing, and business development efforts.

2. Seamless Integration

   • Integrate verified energy data into CRM systems, analytics tools, or marketing platforms via APIs or downloadable formats, streamlining workflows and enhancing productivity.

3. Data Accuracy with AI Validation

   • Trust in 99%...

Brazil Energy: Consumption: Agriculture data was reported at 14,040.787 TOE th in 2023. This records an increase from the previous number of 13,081.739 TOE th for 2022. Brazil Energy: Consumption: Agriculture data is updated yearly, averaging 7,298.469 TOE th from Dec 1970 (Median) to 2023, with 54 observations. The data reached an all-time high of 14,040.787 TOE th in 2023 and a record low of 5,317.407 TOE th in 1971. Brazil Energy: Consumption: Agriculture data remains active status in CEIC and is reported by Ministry of Mining and Energy. The data is categorized under Global Database’s Brazil – Table BR.RBC008: Energy Consumption: by Sector: Agriculture.