API Crude Oil Stock Change in the United States decreased to -4.20 BBL/1Million in August 1 from 1.54 BBL/1Million in the previous week. This dataset provides - United States API Crude Oil Stock Change- actual values, historical data, forecast, chart, statistics, economic calendar and news.

Access the American Petroleum Institute's (API) Weekly Statistical Bulletin (WSB), providing essential data for the US and regional petroleum markets.

API Gasoline Stocks in the United States increased to 1.90 BBL/1Million in July 11 from -2.20 BBL/1Million in the previous week. This dataset provides - United States Api Gasoline Stocks- actual values, historical data, forecast, chart, statistics, economic calendar and news.

API Distillate Stocks in the United States increased to 0.80 BBL/1Million in July 11 from -0.80 BBL/1Million in the previous week. This dataset provides - United States API Distillate Stocks Change- actual values, historical data, forecast, chart, statistics, economic calendar and news.

API Crude Runs in the United States increased to 0.09 BBL/1Million in April 5 from -0.01 BBL/1Million in the previous week. This dataset provides - United States API Refinery Crude Runs- actual values, historical data, forecast, chart, statistics, economic calendar and news.

Financial overview and grant giving statistics of American Petroleum Institute

Data on crude oil reserves and production; refining and processing; imports, exports, movements; stocks; prices; and consumption/sales are available in machine-readable format. Users of the EIA API are required to obtain an API Key via this registration form: http://www.eia.gov/beta/api/register.cfm

Financial overview and grant giving statistics of The Delta Chapter Of The American Petroleum Institute

API Cushing Number in the United States remained unchanged at 0.10 BBL/1Million in July 11 from 0.10 BBL/1Million in the previous week. This dataset provides - United States Api Cushing Number- actual values, historical data, forecast, chart, statistics, economic calendar and news.

Financial overview and grant giving statistics of Border Chapter Of The American Petroleum Institute

With the reduction of large oil spills because of stricter regulations and safety measures, the question of how to manage smaller oil spills arises. Few on-site analytical tools are available for first responders or other law enforcement personnel to rapidly test for crude oil in the early management of localized polluted areas. The approach reported here relies on well-described computer-assisted multivariate data analysis of the intrinsic fluorescence fingerprints of crude oils to build a multivariate model for the rapid classification of crude oils and the prediction of their properties. Thanks to a dedicated robust portable reader, the method allowed classification and accurate prediction of various properties of crude oil samples like density (according to API, the American Petroleum Institute and viscosity as well as composition parameters such as volume fractions of paraffins or aromatics. In this way, autonomous operation in on-site or in-the-field applications becomes possible based on the direct (undiluted and untreated) measurement of samples and a rapid, tablet-operated readout system to yield a robust and simple analytical test with superior performance. Testing in real-life scenarios allowed the successful classification and prediction of a number of oil spill samples as well as weathered samples that closely resemble samples collected by first responders.

The API Oil Casing market plays a critical role in the oil and gas industry, serving as a fundamental component in the construction and integrity of oil wells. API, or American Petroleum Institute, standards govern the specifications for casing pipes, which are essential for the safe and efficient extraction of petr

Financial overview and grant giving statistics of Austin Chalk Chapter Of The American Petroleum Institute

Industrial API Centrifugal Pumps Market Outlook

The global market size for industrial API centrifugal pumps was valued at USD 34.2 billion in 2023, and it is projected to reach USD 54.1 billion by 2032, growing at a compound annual growth rate (CAGR) of 5.1% from 2024 to 2032. This growth is driven by increasing demand from key sectors such as oil & gas, chemical, and water & wastewater treatment, coupled with technological advancements in pump design and efficiency.

Several factors contribute to the robust growth of the industrial API centrifugal pumps market. First, the escalating needs of the water and wastewater treatment sector are pivotal. With global industrialization and urbanization, the demand for efficient water management solutions has surged, driving the need for centrifugal pumps that can handle large volumes of fluids. Additionally, stringent environmental regulations have necessitated the upgrade and expansion of water treatment facilities, further accelerating market growth.

Another significant growth driver is the oil and gas industry, where API centrifugal pumps are indispensable for various operations, including drilling, production, and refining. The recent recovery in oil prices has led to an uptick in exploration and production activities, thereby bolstering the demand for these pumps. Moreover, the ongoing development of new oilfields and the expansion of existing facilities are expected to sustain this demand over the forecast period.

Technological advancements also play a crucial role in the market's expansion. Innovations such as the integration of Internet of Things (IoT) technology, predictive maintenance, and energy-efficient designs have made modern centrifugal pumps more reliable and cost-effective. These advancements not only reduce operational costs but also enhance the lifespan and performance of the pumps, making them an attractive investment for end-users.

The role of Api Process Pumps in industrial applications cannot be overstated. These pumps are specifically designed to meet the stringent standards of the American Petroleum Institute (API), ensuring reliability and safety in critical operations. Api Process Pumps are particularly vital in the oil and gas sector, where they handle the transportation of crude oil, refined products, and other fluids under high pressure and temperature conditions. Their robust construction and ability to withstand harsh environments make them an indispensable component in upstream, midstream, and downstream processes. As industries continue to seek efficient and durable pumping solutions, the demand for Api Process Pumps is expected to rise, supporting the overall growth of the centrifugal pumps market.

From a regional perspective, the Asia Pacific region stands out as a significant market for industrial API centrifugal pumps. Rapid industrialization, coupled with increasing investments in infrastructure projects, particularly in countries like China and India, is driving the demand for these pumps. Additionally, the region's stringent environmental regulations and focus on sustainable development further complement market growth.

Type Analysis

In the industrial API centrifugal pumps market, the segmentation by type includes single-stage and multi-stage pumps. Single-stage centrifugal pumps, known for their simplicity and efficiency, are highly favored in applications where a single impeller suffices for fluid movement. These pumps are particularly popular in applications requiring moderate head and flow rates, such as water supply systems and HVAC systems in commercial buildings. The ease of maintenance and lower initial cost make single-stage pumps a preferred choice for many end-users.

On the other hand, multi-stage centrifugal pumps feature multiple impellers and are designed for applications requiring high head and pressure. These pumps are extensively used in industries such as oil and gas, where high-pressure fluid movement is essential. Multi-stage pumps are also critical in water treatment plants, where they help in reverse osmosis and other high-pressure processes. Despite their higher initial cost, the efficiency and performance benefits they offer make them indispensable in such demanding applications.

Grease Centrifugal Pumps play a crucial role

The API 6D ball valve market plays a crucial role in various industries, including oil and gas, water treatment, power generation, and chemical manufacturing. As a standardized valve that meets the American Petroleum Institute (API) 6D specifications, these valves are integral for regulating and controlling the flow

As per Cognitive Market Research's latest published report, the Global API Pipe market size will be $1,139.22 Million by 2028. API Pipe Industry's Compound Annual Growth Rate will be 4.62% from 2023 to 2030.

The Europe API Pipe market size is expected to USD 311.35 Million by 2028.

Factors Affecting API Pipe market growth

The growing demand for steel pipes for onshore, offshore and sour services

From the drilling and completion of exploration and production wells to the transportation to refineries as well as in distribution networks carrying hydrocarbon fluids and natural gas, Steel pipe is an integral part of each stage in the oil and gas industry. The situation in which oil and gas companies operate today have become increasingly complex in the quest to find and exploit new reserves, placing extraordinary demands on pipe manufacturers and service providers. Increasing exploration and production (E&P) investment, onshore and offshore drilling activities, offshore construction are the major factors driving the demand of pipes in oil and gas industry.

The oil and gas industry widely operate in demanding environments that sees machinery working in very high or low temperatures in potential toxic substances. Because of this, special grades of metal have been developed to ensure that it can resist corrosion and withstand extreme temperatures. High strength, good corrosion resistance, higher tensile and yield strength and good weldability are the benefits of using steel pipe in oil and gas industries. Due to this property, steel pipes are majorly used in onshore, offshore activities.

It is very important to maintain the quality of material use in pipeline because many crucial offshore activities such as drilling relies on onshore pipelines, waste disposal facilities, ports and refineries that endanger public health by polluting the air and water, and threaten wildlife and ecosystems.

To avoid the damage of leaks or oil spilling it is important to choose high grade steel pipeline. The American Petroleum Institute (API) drive the standardization and quality among the oil and gas companies. End-User Operational Safety, Protecting and Maintaining Well Integrity, Environmental and Public Safety, Reduced Downtime are the many benefits offered under API standardization.

Restraints for API Pipe Market

Fluctuating raw material prices (Access Detailed Analysis in the Full Report Version)

Opportunities for API Pipe Market

Rising automation in oil & gas industries to encourage growth (Access Detailed Analysis in the Full Report Version)

What is an API Pipe?

API is an American Petroleum Institute safety standard founded in 1919, dedicated to oil and gas operations and procedures. API has developed more than 700 standards to enhance operational safety, environmental protection, and sustainability across the industry, especially through these standards being adopted globally. API standards help to improve operational excellence, ensure compliance and safe practices and reduce the risks in equipment failure. API Line Pipe is a steel pipe majorly used for the transmission of Oil, Gas and Petroleum Distillates. API Pipes are manufactured as per specifications established by American Petroleum Institute (API). It defines the standard for the dimension, physical, mechanical, and chemical properties of the steel.

Global API pipe market is distributed in two type segment including Hot Roll, Cold Roll, and Cold Drawn. These types are categories by the different production process of stainless-steel pipes. Transport of Oil and Transport Gas are the two major applications served by the API pipe.

This digital dataset contains historical geochemical and other information for 200 samples of produced water from 182 sites in 25 oil fields in Los Angeles and Orange Counties, southern California. Produced water is a term used in the oil industry to describe water that is produced as a byproduct along with the oil and gas. The locations from which these historical samples have been collected include 152 wells. Well depth and (or) perforation depths are available for 114 of these wells. Sample depths are available for two additional wells in lieu of well or perforation depths. Additional sample sites include four storage tanks, and two unidentifiable sample sources. One of the storage tank samples (Dataset ID 57) is associated with a single identifiable well. Historical samples from other storage tanks and unidentifiable sample sources may also represent pre- or post-treated composite samples of produced water from single or multiple wells. Historical sample descriptions provide further insight about the site type associated with some of the samples. Twenty-four sites, including 21 wells, are classified as "injectate" based on the sample description combined with the designated well use at the time of sample collection (WD, water disposal or WF, water flood). Historical samples associated with these sites may represent water that originated from sources other than the wells from which they were collected. For example, samples collected from two wells (Dataset IDs 86 and 98) include as part of their description “blended and treated produced water from across the field”. Historical samples described as formation water (45 samples), including 38 wells with a well type designation of OG (oil/gas), are probably produced water, representing a mixture of formation water and water injected for enhanced recovery. A possible exception may be samples collected from OG wells prior to the onset of production. Historical samples from four wells, including three with a sample description of "formation water", were from wells identified as water source wells which access groundwater for use in the production of oil. The numerical water chemistry data were compiled by the U.S. Geological Survey (USGS) from scanned laboratory analysis reports available from the California Geologic Energy Management Division (CalGEM). Sample site characteristics, such as well construction details, were attributed using a combination of information provided with the scanned laboratory analysis reports and well history files from CalGEM Well Finder. The compiled data are divided into two separate data files described as follows: 1) a summary data file identifying each site by name, the site location, basic construction information, and American petroleum Institute (API) number (for wells), the number of chemistry samples, period of record, sample description, and the geologic formation associated with the origin of the sampled water, or intended destination (formation into which water was to intended to be injected for samples labeled as injectate) of the sample; and 2) a data file of geochemistry analyses for selected water-quality indicators, major and minor ions, nutrients, and trace elements, parameter code and (or) method, reporting level, reporting level type, and supplemental notes. A data dictionary was created to describe the geochemistry data file and is provided with this data release.

Trends in properties of motor gasolines for the years 1942 through 1984; diesel fuels for the years 1950 through 1983; aviation fuels for the years 1947 through 1983; and heating oils for the years 1955 through 1984, have been evaluated based upon data contained in surveys prepared and published by the National Institute for Petroleum and Energy Research (NIPER) formerly the Bartlesville Energy Technology Center (BETC). The surveys for motor gasolines were conducted under a cooperative agreement with the Coordinating Research Council (CRC) and the Bureau of Mines from 1935 through 1948 and in cooperation with the American Petroleum Institute (API) since 1948 for all surveys. The motor gasoline surveys have been published twice annually since 1935 describing the properties of motor gasolines throughout the country. Other surveys prepared in cooperation with API and the Bureau of Mines, the Energy Research and Development Administration, the Department of Energy, and currently NIPER were aviation gasolines beginning in 1947, diesel fuels in 1950, aviation turbine fuels in 1951, and heating oils, formerly burner fuel oils, in 1955. Various companies throughout the country obtain samples of motor gasolines from retail outlets and refinery samples for the other surveys, and analyze the samples using American Society for Testing and Materials (ASTM) procedures. The analytical data are sent to the Bartlesville Center for survey preparation and distribution. A summary report has been assembled from data in 83 semiannual surveys for motor gasolines that shows trends throughout the entire era from winter 19

This dataset evaluates the sandstone-hosted uranium potential of Alberta. An Alberta Geological Survey database of oil and gas well logs were queried to identify wells with gamma values greater than 300 API (American Petroleum Institute units). An algorithm written for this analysis queried more than 48 000 gamma ray logs from more than 22 000 wells. Of those, 11 476 readings greater than 300 API, within the upper 500 metres, were found in 6176 wells. We selected 1318 wells, verified the anomaly and determined rock types using a combination of gamma, density and resistivity logs. This dataset is associated with Alberta Geological Survey Open File Report 2009-0012.

API Centrifugal Pumps Market Outlook

The global API centrifugal pumps market size was valued at approximately USD 8.7 billion in 2023 and is projected to reach around USD 12.5 billion by 2032, exhibiting a compound annual growth rate (CAGR) of 4.1% over the forecast period. The growth of this market is primarily driven by the increasing demand for efficient fluid handling systems across various industries such as oil & gas, chemicals, and water & wastewater treatment. A significant factor contributing to this growth is the ongoing expansion of industrial activities in emerging economies, which is bolstering the need for advanced centrifugal pumping solutions.

One of the key growth factors for the API centrifugal pumps market is the robust demand from the oil & gas industry. As global energy consumption continues to rise, the oil & gas sector is experiencing substantial investments in exploration and production activities. This surge in upstream activities necessitates the use of reliable and efficient pumping solutions to ensure smooth operations, thereby driving the demand for API centrifugal pumps. Additionally, the increasing focus on refining and petrochemical processes further augments the market growth, as these applications require precise fluid handling systems to maintain operational efficiency.

The chemical industry is another major growth driver for the API centrifugal pumps market. The chemical sector's demand for these pumps is underpinned by the need for precise and safe fluid transfer processes, which are critical for the production of chemicals, pharmaceuticals, and specialty products. With the chemical industry witnessing considerable growth due to rising consumer demand for various chemical products, the requirement for high-performance centrifugal pumps is on the rise. Moreover, stringent regulations regarding safe and efficient fluid handling in chemical plants further boost market adoption.

Water and wastewater treatment applications are also contributing significantly to the growth of the API centrifugal pumps market. The increasing global population and urbanization rates are putting immense pressure on existing water infrastructure, necessitating the development of advanced water treatment facilities. API centrifugal pumps play a vital role in these facilities by ensuring efficient water circulation and treatment processes. Furthermore, government initiatives aimed at improving water and wastewater management systems are creating lucrative opportunities for market expansion.

The demand for Industrial API 610 Pumps is particularly noteworthy in the oil & gas industry, where these pumps are essential for handling high-pressure applications. API 610 is a standard developed by the American Petroleum Institute, specifically designed for centrifugal pumps used in petroleum, petrochemical, and natural gas industries. These pumps are engineered to withstand the rigorous demands of industrial operations, offering reliability and efficiency in fluid handling. The robust construction and design of Industrial API 610 Pumps make them ideal for critical applications, ensuring operational continuity and safety in challenging environments. As the oil & gas sector continues to expand, the adoption of these pumps is expected to rise, driven by the need for high-performance solutions that meet stringent industry standards.

From a regional perspective, the Asia Pacific region is anticipated to witness substantial growth in the API centrifugal pumps market during the forecast period. The region's rapid industrialization and urbanization, particularly in countries such as China and India, are major factors driving the demand for centrifugal pumps. Additionally, the presence of a large number of manufacturing facilities and ongoing infrastructural developments further bolster the market growth in this region. Moreover, favorable government policies and investments in sectors such as oil & gas, chemicals, and water treatment are expected to create a conducive environment for market expansion.

Type Analysis

The API centrifugal pumps market is segmented based on type into single-stage and multistage pumps. Single-stage centrifugal pumps, characterized by their simplicity and cost-effectiveness, are extensively utilized across various industries for applications requiring