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The current value of the Electricity Production in India is 139,791.55 Gigawatt-hour. The Electricity Production in India decreased to 139,791.55 Gigawatt-hour on 6/1/2024, after it was 145,046.15 Gigawatt-hour on 5/1/2024. From 12/1/1970 to 7/1/2024, the average GDP in India was 127,357.13 Gigawatt-hour. The all-time high was reached on 12/1/2019 with 340,578.6 Gigawatt-hour, while the lowest value was recorded on 12/1/1970 with 27,666 Gigawatt-hour.
Electricity Production ·
3 years
5 years
10 years
25 Years
Max
Electricity Production | |
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12/1/1970 | 27,666 Gigawatt-hour |
12/1/1975 | 35,928 Gigawatt-hour |
12/1/1980 | 49,543 Gigawatt-hour |
12/1/1985 | 56,003 Gigawatt-hour |
12/1/1990 | 77,782 Gigawatt-hour |
12/1/1995 | 80,561 Gigawatt-hour |
12/1/2000 | 91,264 Gigawatt-hour |
12/1/2001 | 93,054 Gigawatt-hour |
12/1/2002 | 83,404 Gigawatt-hour |
12/1/2003 | 93,022 Gigawatt-hour |
12/1/2004 | 101,621 Gigawatt-hour |
12/1/2005 | 118,818 Gigawatt-hour |
12/1/2006 | 142,163.8 Gigawatt-hour |
12/1/2007 | 162,553.7 Gigawatt-hour |
12/1/2008 | 152,886 Gigawatt-hour |
12/1/2009 | 159,642.8 Gigawatt-hour |
12/1/2010 | 179,926.5 Gigawatt-hour |
12/1/2011 | 214,024.1 Gigawatt-hour |
12/1/2012 | 204,035.3 Gigawatt-hour |
12/1/2013 | 234,595 Gigawatt-hour |
12/1/2014 | 238,908.4 Gigawatt-hour |
12/1/2015 | 224,571.1 Gigawatt-hour |
12/1/2016 | 241,841.6 Gigawatt-hour |
12/1/2017 | 266,308.3 Gigawatt-hour |
12/1/2018 | 299,465 Gigawatt-hour |
12/1/2019 | 340,578.6 Gigawatt-hour |
1/1/2020 | 103,010.96 Gigawatt-hour |
2/1/2020 | 100,977.43 Gigawatt-hour |
3/1/2020 | 96,063 Gigawatt-hour |
4/1/2020 | 81,045.2 Gigawatt-hour |
5/1/2020 | 96,501.4 Gigawatt-hour |
6/1/2020 | 100,142.2 Gigawatt-hour |
7/1/2020 | 108,268.8 Gigawatt-hour |
8/1/2020 | 103,134.9 Gigawatt-hour |
9/1/2020 | 110,212 Gigawatt-hour |
10/1/2020 | 107,728.6 Gigawatt-hour |
11/1/2020 | 95,196.2 Gigawatt-hour |
12/1/2020 | 103,688.3 Gigawatt-hour |
1/1/2021 | 108,504.8 Gigawatt-hour |
2/1/2021 | 101,415.4 Gigawatt-hour |
3/1/2021 | 118,769.9 Gigawatt-hour |
4/1/2021 | 115,473.3 Gigawatt-hour |
5/1/2021 | 103,832.7 Gigawatt-hour |
6/1/2021 | 106,459.6 Gigawatt-hour |
7/1/2021 | 115,982.16 Gigawatt-hour |
8/1/2021 | 120,977.56 Gigawatt-hour |
9/1/2021 | 108,241.26 Gigawatt-hour |
10/1/2021 | 111,031.3 Gigawatt-hour |
11/1/2021 | 96,941.73 Gigawatt-hour |
12/1/2021 | 105,992.11 Gigawatt-hour |
1/1/2022 | 107,886.11 Gigawatt-hour |
2/1/2022 | 104,208.41 Gigawatt-hour |
3/1/2022 | 123,920.88 Gigawatt-hour |
4/1/2022 | 127,031.08 Gigawatt-hour |
5/1/2022 | 125,218.6 Gigawatt-hour |
6/1/2022 | 124,421.57 Gigawatt-hour |
7/1/2022 | 118,937.22 Gigawatt-hour |
8/1/2022 | 121,513.98 Gigawatt-hour |
9/1/2022 | 119,995.52 Gigawatt-hour |
10/1/2022 | 109,501.11 Gigawatt-hour |
11/1/2022 | 108,444.02 Gigawatt-hour |
12/1/2022 | 115,503.39 Gigawatt-hour |
1/1/2023 | 118,620.88 Gigawatt-hour |
2/1/2023 | 111,523.05 Gigawatt-hour |
3/1/2023 | 120,202.51 Gigawatt-hour |
4/1/2023 | 123,873.1 Gigawatt-hour |
5/1/2023 | 126,601.67 Gigawatt-hour |
6/1/2023 | 127,382.73 Gigawatt-hour |
7/1/2023 | 126,313.02 Gigawatt-hour |
8/1/2023 | 137,594.35 Gigawatt-hour |
9/1/2023 | 130,538.47 Gigawatt-hour |
10/1/2023 | 133,501.13 Gigawatt-hour |
11/1/2023 | 114,729.25 Gigawatt-hour |
12/1/2023 | 115,946.77 Gigawatt-hour |
1/1/2024 | 128,008.6 Gigawatt-hour |
2/1/2024 | 118,704.67 Gigawatt-hour |
3/1/2024 | 129,965.03 Gigawatt-hour |
4/1/2024 | 136,309.88 Gigawatt-hour |
5/1/2024 | 145,046.15 Gigawatt-hour |
6/1/2024 | 139,791.55 Gigawatt-hour |
Electricity Production History
Date | Value |
---|---|
6/1/2024 | 139,791.55 Gigawatt-hour |
5/1/2024 | 145,046.15 Gigawatt-hour |
4/1/2024 | 136,309.88 Gigawatt-hour |
3/1/2024 | 129,965.03 Gigawatt-hour |
2/1/2024 | 118,704.67 Gigawatt-hour |
1/1/2024 | 128,008.6 Gigawatt-hour |
12/1/2023 | 115,946.77 Gigawatt-hour |
11/1/2023 | 114,729.25 Gigawatt-hour |
10/1/2023 | 133,501.13 Gigawatt-hour |
9/1/2023 | 130,538.47 Gigawatt-hour |
Similar Macro Indicators to Electricity Production
Name | Current | Previous | Frequency |
---|---|---|---|
🇮🇳 Automobile production | 151,538 Units | 171,437 Units | Monthly |
🇮🇳 Business Climate | 130.3 points | 135.4 points | Quarter |
🇮🇳 Capacity Utilization | 75.8 % | 74 % | Quarter |
🇮🇳 Changes in Inventory Levels | 544.48 B INR | 461.83 B INR | Quarter |
🇮🇳 Composite Leading Indicator | 100.308 points | 100.178 points | Monthly |
🇮🇳 Composite PMI | 58.3 points | 60.7 points | Monthly |
🇮🇳 Deposit Growth | 11.8 % | 11.5 % | frequency_biweekly |
🇮🇳 Industrial production | 5 % | 4.9 % | Monthly |
🇮🇳 Industrial Production MoM | -2.97 % | 4.67 % | Monthly |
🇮🇳 Manufacturing PMI | 56.5 points | 57.5 points | Monthly |
🇮🇳 Manufacturing Production | 4.6 % | 2.6 % | Monthly |
🇮🇳 Mining Production | 6.56 % | 6.69 % | Monthly |
🇮🇳 Services PMI | 57.7 points | 60.9 points | Monthly |
🇮🇳 Steel production | 12.3 M Tonnes | 12.3 M Tonnes | Monthly |
🇮🇳 Total Vehicle Sales | 315,689 Units | 308,779 Units | Monthly |
🇮🇳 Vehicle Registrations | 160,306 Units | 168,912 Units | Monthly |
Macro pages for other countries in Asia
- 🇨🇳China
- 🇮🇩Indonesia
- 🇯🇵Japan
- 🇸🇦Saudi Arabia
- 🇸🇬Singapore
- 🇰🇷South Korea
- 🇹🇷Turkey
- 🇦🇫Afghanistan
- 🇦🇲Armenia
- 🇦🇿Azerbaijan
- 🇧🇭Bahrain
- 🇧🇩Bangladesh
- 🇧🇹Bhutan
- 🇧🇳Brunei
- 🇰🇭Cambodia
- 🇹🇱East Timor
- 🇬🇪Georgia
- 🇭🇰Hong Kong
- 🇮🇷Iran
- 🇮🇶Iraq
- 🇮🇱Israel
- 🇯🇴Jordan
- 🇰🇿Kazakhstan
- 🇰🇼Kuwait
- 🇰🇬Kyrgyzstan
- 🇱🇦Laos
- 🇱🇧Lebanon
- 🇲🇴Macau
- 🇲🇾Malaysia
- 🇲🇻Maldives
- 🇲🇳Mongolia
- 🇲🇲Myanmar
- 🇳🇵Nepal
- 🇰🇵North Korea
- 🇴🇲Oman
- 🇵🇰Pakistan
- 🇵🇸Palestine
- 🇵🇭Philippines
- 🇶🇦Qatar
- 🇱🇰Sri Lanka
- 🇸🇾Syria
- 🇹🇼Taiwan
- 🇹🇯Tajikistan
- 🇹🇭Thailand
- 🇹🇲Turkmenistan
- 🇦🇪United Arab Emirates
- 🇺🇿Uzbekistan
- 🇻🇳Vietnam
- 🇾🇪Yemen
What is Electricity Production?
Electricity production is a cornerstone of modern macroeconomic analysis, underpinning virtually every aspect of economic activity and competitiveness. At Eulerpool, we provide in-depth insights and comprehensive data on the dynamics of electricity production, emphasizing its pivotal role in shaping economic landscapes and informing policy decisions. This article delves into the multifaceted nature of electricity production, elaborating on its impact on national economies, the factors influencing production levels, and the evolving energy mix in the context of global trends toward sustainability and technological advancement. The electricity production sector plays a critical role in a nation's economic vitality. It is integral not just for residential and industrial consumption but also for the infrastructure that supports healthcare, education, and various other essential services. The ability of a country to produce and manage a stable and sufficient supply of electricity often correlates with its economic development and stability. Consequently, monitoring and analyzing electricity production data enables policymakers, investors, and economists to gauge economic health and project future growth trajectories. Technological advancements and innovations in the energy sector are continuously reshaping the electricity production landscape. Traditionally reliant on fossil fuels such as coal, oil, and natural gas, the global energy mix is undergoing a significant transformation. Increasing concerns over environmental sustainability and the pressing need to mitigate climate change have accelerated the transition toward renewable energy sources. Solar, wind, hydropower, and geothermal energy are becoming increasingly prevalent, diminishing the reliance on conventional fuels. This shift not only addresses environmental imperatives but also introduces economic opportunities and challenges. The cost of electricity production is a major determinant of a country's economic competitiveness. Lower production costs can lead to lower electricity prices, benefiting consumers and producers alike by reducing the overall cost of living and production. Competitive electricity pricing can attract energy-intensive industries, enhance export capabilities, and improve the standard of living. Conversely, high production costs can stifle economic growth, lead to higher prices for goods and services, and strain household budgets. Efficient management of electricity production, therefore, is crucial for fostering a conducive economic environment. Energy policy is another critical factor influencing electricity production. Governments play a significant role in determining the regulatory framework within which electricity producers operate. Policies promoting the development of renewable energy sources, providing subsidies for clean energy technology, and implementing carbon pricing mechanisms are shaping the energy landscape. These policies can drive investment in new technologies, encourage energy efficiency, and foster a more sustainable production framework. Additionally, energy policy affects international trade dynamics, as countries with surplus production capacity may export electricity, while those with deficits might rely on imports. The infrastructure supporting electricity production, including power plants, transmission lines, and distribution networks, is fundamental to ensuring a reliable and efficient supply of electricity. Investment in modern infrastructure, such as smart grids and energy storage systems, can enhance the reliability and resilience of electricity supply. Modern infrastructure allows for better integration of renewable energy sources, improves energy security, and reduces the risk of outages. Countries that invest strategically in infrastructure tend to enjoy more stable and efficient energy systems, which in turn supports economic growth and development. The environmental impact of electricity production is a growing concern in macroeconomic discussions. Traditional methods of electricity production, especially those reliant on fossil fuels, contribute significantly to greenhouse gas emissions and other pollutants. These emissions have far-reaching effects on public health, biodiversity, and climate patterns. The transition to greener technologies is not just an environmental necessity but also an economic one. Economies that lead in adopting and innovating renewable energy technologies can position themselves at the forefront of the global green economy, potentially reaping significant financial and social benefits. Electricity production data serves as an invaluable resource for a myriad of stakeholders. Investors use this data to make informed decisions about where to allocate resources, considering factors such as production costs, regulatory environment, and technological advancements. Policymakers rely on electricity production metrics to develop strategies that align with national goals on energy security, economic growth, and environmental sustainability. Businesses and industries analyze electricity production trends to optimize their operations, manage risks associated with energy supply and pricing, and identify potential areas for cost savings and investment. At Eulerpool, our commitment to providing detailed and accurate macroeconomic data on electricity production enables our users to stay ahead in a rapidly evolving energy landscape. By offering a wealth of information, including production statistics, cost analysis, policy impacts, and environmental considerations, we empower our users to make informed decisions that drive growth, innovation, and sustainability. The interplay between electricity production and economic development is a dynamic and complex field of study. As the world grapples with climate change, technological evolution, and shifting economic priorities, understanding the nuances of electricity production becomes increasingly crucial. Through comprehensive data analysis and expert insights, Eulerpool remains dedicated to supporting the needs of our users and contributing to the broader discourse on macroeconomic development and environmental stewardship. In conclusion, electricity production stands as a vital element in the architecture of contemporary economies. Its influence extends beyond mere energy supply to encompass economic stability, competitiveness, environmental health, and technological progress. By closely monitoring and analyzing electricity production, stakeholders can navigate the challenges and opportunities of the modern energy landscape, fostering a more prosperous and sustainable future.