Natural gas rose to 2.85 USD/MMBtu on September 23, 2025, up 1.43% from the previous day. Over the past month, Natural gas's price has risen 1.39%, and is up 1.97% compared to the same time last year, according to trading on a contract for difference (CFD) that tracks the benchmark market for this commodity. Natural gas - values, historical data, forecasts and news - updated on September of 2025.

TTF Gas fell to 32.07 EUR/MWh on September 22, 2025, down 0.73% from the previous day. Over the past month, TTF Gas's price has fallen 5.59%, and is down 11.40% compared to the same time last year, according to trading on a contract for difference (CFD) that tracks the benchmark market for this commodity. EU Natural Gas TTF - values, historical data, forecasts and news - updated on September of 2025.

The "NGAP" system is a web based application which serves NGAP GSA users for tracking information details for various natural gas supply chain elements like Agency, LDC, and Facility with their respective Point of Contacts information. In addition to this, it also maintains the Cost & Usage Data and Invoices for the Facilities under different account managers.

The attribute data for this point dataset come from EIA’s U.S. field level storage data, which is sourced from U.S. Energy Information Administration, Form EIA-191, Monthly Underground Gas Storage Report. It includes both active and inactive natural gas storage fields. EIA-191 collects information on working and base gas in reservoirs, injections, withdrawals, and location of reservoirs from operators of all underground natural gas storage fields on a monthly basis

The facility location data represent the approximate location based on research of publicly available information from sources such as Federal agencies, company websites, and satellite images on public websites.

The Natural Gas Interstate and Intrastate Pipelines dataset was updated on October 21, 2020 from the Energy Information Administration (EIA), with attribute data from the end of calendar year 2024 and is part of the U.S. Department of Transportation (USDOT)/Bureau of Transportation Statistics (BTS) National Transportation Atlas Database (NTAD). This is a polyline dataset representing the major natural gas transmission pipelines in the U.S. including interstate, intrastate, and gathering pipelines. These data were compiled by the U.S. Energy Information Administration from various sources including federal and state agencies, and other external sources such as company web pages and industry press. Updated January 2020. A data dictionary, or other source of attribute information, is accessible at https://doi.org/10.21949/1529018

Worldwide natural gas consumption has stagnated over the past three years. In 2024, natural gas consumption worldwide amounted to roughly ************* cubic meters. What is natural gas? Natural gas is a mixture of gases, primarily methane. Consisting mostly of hydrocarbons, it is found in deposits called reservoirs beneath the surface of the Earth. Natural gas is considered the Earth’s cleanest fossil fuel because it produces carbon dioxide, water vapor, and small amounts of nitrogen oxides when it is burned. In its natural state, natural gas is colorless and odorless. It is used commonly in residential, commercial, and industrial applications, such as heating and electricity generation. Although it is the cleanest burning fossil fuel, natural gas development has resulted in the increase of hydraulic fracturing (also known as fracking), a controversial and environmentally damaging extraction method. Natural gas consumption in the United States In 2023, the United States was the leading consumer of natural gas worldwide. Their natural gas consumption has been increasing slightly since 1995, amounting to some ************* cubic feet in 2023. That same year, the industrial sector in the United States consumed the second largest proportion of natural gas of all sectors, second to electricity generation. In the U.S. industrial sector, natural gas is used as a fuel for process heating, heat and power systems, and as a raw material to produce chemicals and fertilizer.

Through a nationwide network of local coalitions, Clean Cities provides project assistance to help stakeholders in the public and private sectors deploy alternative and renewable fuels, idle-reduction measures, fuel economy improvements, and emerging transportation technologies. Department of Energy collects this data as part of the Projects undertaken by Clean Cities coalitions and stakeholders to ensure customers access to clean alternative energy. This data can be found at the Department of Energy Alternative Fuels Data Center Web Feature Service: http://www.afdc.energy.gov/locator/stations/Clean Cities is the deployment arm of the U.S. Department of Energy's (DOE) Vehicle Technologies Office.

This scatter chart displays electricity production from natural gas sources (% of total) against individuals using the Internet (% of population) in Eastern Africa. The data is about countries.

This data was created for the purpose of identifying major natural gas transmission pipelines in the United States.This is a polyline dataset representing the major natural gas transmission pipelines in the U.S. including interstate, intrastate, and gathering pipelines. These data were compiled by the U.S. Energy Information Administration from various sources including federal and state agencies, and other external sources such as company web pages and industry press. Updated January 2020.View Dataset on the Gateway

UK Gas fell to 79.26 GBp/thm on September 22, 2025, down 0.99% from the previous day. Over the past month, UK Gas's price has fallen 5.03%, and is down 8.29% compared to the same time last year, according to trading on a contract for difference (CFD) that tracks the benchmark market for this commodity. UK Natural Gas - values, historical data, forecasts and news - updated on September of 2025.

The Renewable Natural Gas (RNG) market is projected to be valued at $2.5 billion in 2024, driven by factors such as increasing consumer awareness and the rising prevalence of industry-specific trends. The market is expected to grow at a CAGR of 13.5%, reaching approximately $8.6 billion by 2034.

This dataset contains information about Saud Arabia's natural gas sales by stations (in tons)for 2001-2013. Data from Saudi Open Data.Citation: "Sales Of Gas By Gas Stations (In Ton) | Saudi Open Data". Data.gov.sa. N.p., 2015. Web. 15 Mar. 2016.

Monthly natural gas consumption data in Therms by Rate Classification (i.e. Residential, Commercial, Other Public Authority, Interdepartmental) and customer counts within the City of Mesa natural gas service territory. Consumption totals are for the month in which they are billed to the customer (“Billing Month”). Due to the constant reading of utility meters throughout the month, much of the consumption occurs in the month prior to the Billing Month.

Splitgraph serves as an HTTP API that lets you run SQL queries directly on this data to power Web applications. For example:

See the Splitgraph documentation for more information.

In the aftermath of the disruptions caused by hurricanes Katrina and Rita, natural gas prices rose to record-high levels. Because natural gas is an important energy source for the United States economy, there was widespread concern that these high prices might cause a significant slowing in the economy-especially among those manufacturing industries that heavily consume natural gas. The analysis presented in this article suggests that output is responsive to natural gas prices in some manufacturing sectors. Although perhaps significant, this result must be balances against the findings that, when the analysis is extended to the macroeconomy (real gross domestic product growth), increases in crude oil prices significantly predict real gross domestic product growth, but natural gas prices do not.

The Canada Energy Regulator regulates the export of natural gas. Orders or licenses are required to export natural gas, including liquefied natural gas, from Canada. Holders of these authorizations report monthly on their activities to CER. LNG import and export activities are available by terminal from 2009 to August 2024. Data is delayed by approximately 2 months. Disclaimer: 1.) The Canada Energy Regulator (CER) stopped authorizing natural gas import activities in August 2022 as it is not a requirement under the Canadian Energy Regulator Act (see the CER’s 3 February 2023 letter - https://www.cer-rec.gc.ca/en/about/how-we-regulate/guidance/cera/gas-import-authorization-regulatory-change-no-new-import-authorizations-required.html). This impacted the natural gas (including liquefied natural gas) import data collected and published by the CER. Natural gas import data from 1985 to 2024 are published in the CER’s Open Government reports. Gas import data after 2022 did not reflect total import activities. Another set of natural gas import data is available through Statistics Canada’s Canadian International Merchandise Trade web application. (https://www150.statcan.gc.ca/n1/pub/71-607-x/71-607-x2021004-eng.html) 2.) The published reports do not include export data about value or price and purchaser of LNG submitted by LNG Canada Development Inc. as holder of Licence GL-330 in accordance with the Commission’s 31 July 2025 decision that this data is to receive confidential treatment for a period of five years (https://docs2.cer-rec.gc.ca/ll-eng/llisapi.dll/fetch/2000/90466/94153/552726/834773/4480637/4590556/C35803-1_LNG_Canada_Development_Inc._-_Application_for_Confidential_Treatment_of_Export_Licence_Reporting_Information_-_Decision_on_Confidentiality_-_A9K4W9.pdf?nodeid=4590439&vernum=-2).

The data comprise the initial release of landscape disturbance polygons and lines (sites, pipelines and roads) related to natural gas and oil drilling developed prior to the end of 2013 in the 10-county region along the New York - Pennsylvania border. The study area includes the New York Counties of Allegany, Broome, Chemung, Steuben and Tioga, and the Pennsylvania counties of Bradford, McKean, Potter, Susquehanna, and Tioga. The data were collected using high-resolution aerial imagery from the National Agricultural Imagery Program (NAIP) for each available year between 2004 - 2013 within a geographic information system (GIS), along with additional geospatial data on oil and gas drilling permits and locations, administrative boundaries, ecoregions, and the footprint of the Marcellus Shale play. Data collection was a manual process of visually examining the NAIP imagery composite for each county for each year and using 2004 imagery as a baseline to identify and digitize landscape changes in the land cover resulting from the development of gas extraction infrastructure that occurred after 2004. Changes that correlated with natural gas extraction permits, appeared to be natural gas extraction related, or were in proximity to other gas extraction infrastructure were selected and digitized to the maximum extent of landscape disturbance. Disturbance that appeared in the 2004 imagery was collected; however, some of the collected disturbance for 2004 may predate the NAIP imagery collection date. The focus of the data collection was on features attributable to the construction, use, and maintenance of gas extraction drill sites, processing plants, and compressor stations, as well as the centerlines for new roads accessing such sites, plants, and stations, and the centerlines for new pipelines used to transport the extracted gas. Some of the roads and or pipelines may predate the data collection, however they appeared to be either expanded or worked on in relation to oil or gas activities in the study area. These data were collected within shapefiles by county, using ArcGIS 10.5. One shapefile was generated for sites (polygons), one was generated for roads (lines), and one was generated for pipelines (lines). Another team member reviewed the data for concurrence and consistency. These data identify disturbance related to natural gas and oil drilling, but do not identify the well types associated with that disturbance. For well type, see the New York Department of Environmental Conservation downloadable well data webpage (https://www.dec.ny.gov/energy/1603.html) or the Pennsylvania Department of Environmental Protection Oil and Gas Permit Database available at their web page (http://data-padep-1.opendata.arcgis.com/datasets?q=Oil%20&%20Gas).

The Natural Gas Pressure Regulating Box market is witnessing a steady growth, with a market size of XXX million in 2025. Driven by increasing demand for natural gas as a cleaner and cost-effective energy source, this market is projected to exhibit a CAGR of XX% during the forecast period of 2025-2033. Key factors contributing to this growth include the rising adoption of natural gas in power generation, residential heating, and industrial applications, as well as government initiatives to promote the use of natural gas as a sustainable alternative to fossil fuels. Segmentation of the Natural Gas Pressure Regulating Box market reveals two primary application segments: online sales and offline sales. Online sales are gaining popularity due to the convenience and wide product range offered by e-commerce platforms. The market is also segmented based on types into high pressure regulating boxes and medium pressure regulating boxes. Among these, the high-pressure segment holds a larger market share due to its applications in high-pressure gas distribution systems. Prominent companies in this market include Leshan Chuantian Gas Equipment Co.,Ltd., PINXIN, Burnaby Manufacturing, and Belgas, among others. Geographic analysis shows that North America and Europe dominate the market, with significant growth potential in the Asia Pacific region due to rising industrialization and urbanization.

This scatter chart displays electricity production from natural gas sources (% of total) against individuals using the Internet (% of population) in the United States. The data is about countries per year.

Natural Gas Detectors Market Outlook

The global market size for natural gas detectors was valued at USD 2.3 billion in 2023 and is projected to reach USD 4.8 billion by 2032, growing at a CAGR of 8.1% during the forecast period. This robust growth is primarily driven by increasing safety regulations and awareness about the benefits of gas detectors in preventing hazards in residential, commercial, and industrial environments.

One of the key growth factors in the natural gas detectors market is the rising incidence of gas leaks and related accidents, which has heightened the urgency for enhanced safety measures. Governments and regulatory bodies worldwide are implementing stringent safety regulations, pushing industries and households to adopt reliable gas detection systems. Moreover, the advancements in sensor technologies and the integration of smart features in gas detectors are making these devices more efficient, accurate, and user-friendly, further driving market growth.

Another significant growth driver is the expansion of industrial activities, particularly in developing economies. Industries such as oil and gas, chemicals, and manufacturing are expanding operations, which increases the need for robust safety measures, including gas detection systems. Additionally, the growing urbanization and industrialization in emerging economies are contributing to an increased demand for natural gas detectors. This is further supported by the rising disposable income levels, which enable more households to invest in safety devices.

The ongoing development and adoption of Internet of Things (IoT) technology in gas detection systems is also a crucial growth factor. IoT-enabled gas detectors provide real-time monitoring and instant alerts, significantly enhancing the ability to prevent accidents. The integration of these advanced features is attracting more consumers and businesses to invest in modern gas detection systems, thereby fueling market growth. Furthermore, the increasing availability of these devices on various online platforms is making it easier for consumers to purchase and install them.

As the market for natural gas detectors continues to expand, the role of Digital Gas Detectors is becoming increasingly prominent. These advanced devices leverage digital technology to enhance the accuracy and reliability of gas detection, providing users with real-time data and analytics. Digital Gas Detectors are designed to integrate seamlessly with smart building systems, offering enhanced connectivity and control. This integration allows for more efficient monitoring and management of gas detection systems, ensuring a higher level of safety and compliance with regulations. The demand for digital solutions is growing, driven by the need for more sophisticated and user-friendly gas detection systems that can adapt to the evolving needs of various industries.

Regionally, North America holds a significant share of the natural gas detectors market due to stringent safety regulations and a high level of awareness about gas safety. Europe also shows strong market potential, driven by similar safety standards and the increasing adoption of advanced gas detection technologies. The Asia Pacific region is expected to witness the highest CAGR during the forecast period, fueled by rapid industrialization, urbanization, and increasing safety awareness in countries like China and India. Latin America and the Middle East & Africa regions are also experiencing steady growth, driven by the expansion of oil and gas industries and improving regulatory frameworks.

Product Type Analysis

The natural gas detectors market is segmented by product type into portable gas detectors and fixed gas detectors. Portable gas detectors are gaining significant traction due to their versatility and ease of use. These devices are widely used in various applications, including residential, commercial, and industrial sectors, due to their ability to be easily transported and used in different locations. The increasing demand for portable detectors is driven by their practicality in emergency situations and maintenance activities, where mobility is crucial for effective gas detection.

Fixed gas detectors, on the other hand, are permanently installed in specific locations and are primarily used in industrial and commercial settings. These detectors offer continuous monitoring and are often integrated into comprehensive safety systems, providing rea

The global city gas distribution market is projected to be valued at $85 billion in 2024, driven by factors such as increasing consumer awareness and the rising prevalence of industry-specific trends. The market is expected to grow at a CAGR of 4.5%, reaching approximately $120 billion by 2034.