Due to the dramatic increase in freight rates during 2020 and 2021, consumer prices of many products are projected to increase as well. Consumer prices of computers, electronic and optical products are expected to grow the most between 2021 and 2023, followed by furniture and textiles.

Due to the dramatic increase in freight rates during 2020 and 2021, import and consumer prices are projected to increase as well. While on the global level, the price for importing goods is expected to increase by **** percent, different states will be affected differently. It is projected that for small island developing states, import prices will go up by more than ** percent.

Datasets for testing a static surge pricing model for revenue management of on-demand service platforms.

Surge Energy stock price, live market quote, shares value, historical data, intraday chart, earnings per share and news.

Historical typhoon and Taiwan's various places storm surge extreme value statistics *Download URL modified from September 15, 112 to December 31, 112, please change the connection before the end of the time, the old version link will expire. If you need to download a large amount of data, please apply for membership at the Meteorological Data Open Platform https://opendata.cwa.gov.tw/index

As of 2020, the reconstruction of single-family homes at risk of storm surges from hurricanes in the United States could cost as much as *** trillion U.S. dollars. When considering hurricanes of category * and * alone, reconstruction costs could be as high as *** billion dollars. At the time, there were more than ***** million single-family homes at risk of storm surge in the U.S.

Note that: New figures for storm surges are coming in January 2024 and updated sea level change figures based on IPCC AR6 are expected at the start of 2024. This dataset will be updated with new figures and recommendations for use in municipal planning in February/March 2024. These are files containing statistics on buildings, areas and roads in your municipality that are prone to flooding from the sea. The files are the basis of the information displayed in the application “See sea level in maps”. This is an application that visualises areas that may be affected by sea level rise and extreme water levels. The tool is a tool for identifying risk areas in the coastal zone.

Surge Energy reported CAD689.97M in Market Capitalization this August of 2025, considering the latest stock price and the number of outstanding shares.Data for Surge Energy | SGY - Market Capitalization including historical, tables and charts were last updated by Trading Economics this last August in 2025.

Contains the Reference Model 5 (RM5) spreadsheets with the cost breakdown structure (CBS) for the levelized cost of energy (LCOE) calculations for a single RM5 device and multiple unit arrays. These spreadsheets are contained within an XLSX file and a spreadsheet editor such as Microsoft Excel is needed to open the file. This data was generated upon completion of the project on September 30, 2014. The Reference Model Project (RMP), sponsored by the U.S. Department of Energy (DOE), was a partnered effort to develop open-source MHK point designs as reference models (RMs) to benchmark MHK technology performance and costs, and an open-source methodology for design and analysis of MHK technologies, including models for estimating their capital costs, operational costs, and levelized costs of energy. The point designs also served as open-source test articles for university researchers and commercial technology developers. The RMP project team, led by Sandia National Laboratories (SNL), included a partnership between DOE, three national laboratories, including the National Renewable Energy Laboratory (NREL), Pacific Northwest National Laboratory (PNNL), and Oak Ridge National Laboratory (ORNL), the Applied Research Laboratory of Penn State University, and Re Vision Consulting. Reference Model 5 (RM5) is a type of floating, oscillating surge wave energy converter (OSWEC) that utilizes the surge motion of waves to generate electrical power. The reference wave energy resource for RM5 was measurement data from a National Data Buoy Center (NDBC) buoy near Eureka, in Humboldt County, California. The flap was designed to rotate against the supporting frame to convert wave energy into electrical power from the relative rotational motion induced by incoming waves. The RM5 design is rated at 360 kilowatts (kW), uses a flap of 25 m in width and 19 m in height (16 m in draft), and the distance from the top of the water surface piercing flap to the mean water surface (freeboard) is 1.5 m. The flap is connected to a shaft with a 3-m diameter that rotates against the supporting frame. The supporting frame is assumed to have an outer diameter of 2 m, and the total length of the device structure is 45 m. The RM5 OSWEC was designed for deep-water deployment, at depths between 50 m and 100 m, and was tension-moored to the seabed.

Database based on a systematic quantitative review conducted in March 2021 of the literature on nutrient uptake of seaweeds and seagrasses from 1978 - 2021. Data for (inorganic) nutrient uptake comparison of surge and internally controlled uptake phases.

As awareness of climate change increases government agencies, non profits and community groups are working to develop strategic plans for sea level rise adaptation. To better understand specific choices for sea level rise adaptation we examined the relationship between current protective infrastructure and projected water levels from sea level rise and storm events.

The dataset contains synthetically generated data about customers willingness-to-pay (WTP) and expectation-to-be-paid (ETP) of service professionals across different time slots in order to compute the optimal surge price for the on-demand services platform.

Experience the attraction 'Storm Surge' anew! Perfectly plan with statistics from March 2023 on waiting times or queue times and weather data.

Anti-surge Valves Market Outlook

The global anti-surge valves market size was valued at approximately $1.2 billion in 2023 and is projected to reach around $2.1 billion by 2032, exhibiting a compound annual growth rate (CAGR) of 6.3% during this forecast period. The market is driven by the increasing demand for process optimization and energy efficiency across various industrial sectors. As industries seek to enhance operational efficiency and reduce energy consumption, anti-surge valves become critical components in safeguarding machinery and processes from unexpected pressure surges and fluctuations, thereby ensuring sustained industrial operations and minimizing downtime. These factors, combined with technological advancements in valve design and control mechanisms, are expected to propel the market growth significantly over the coming years.

One of the primary growth factors in the anti-surge valves market is the rising demand for energy efficiency and operational safety across various industrial sectors. Industries such as oil and gas, chemical processing, and power generation require systems that can effectively manage pressure fluctuations to prevent equipment damage and ensure safe operations. Anti-surge valves play a crucial role in mitigating the risks associated with pressure surges by rapidly adjusting flow rates and maintaining stable system pressure. This has led to increased adoption of these valves as industries prioritize safe and efficient operations. Furthermore, the growing focus on sustainability and reducing carbon emissions is encouraging industrial players to invest in advanced valve technologies that contribute to energy savings and minimize environmental impact.

Another significant growth factor is the technological advancements in valve design and control mechanisms. Modern anti-surge valves are increasingly equipped with sophisticated sensors, actuators, and control systems that enable precise monitoring and regulation of pressure and flow rates. The integration of digital technologies, such as IoT and AI, has further enhanced the performance and reliability of these valves, allowing for real-time data analysis and predictive maintenance. This trend towards smart valve solutions is gaining traction as industries strive to achieve higher levels of automation and operational efficiency. Moreover, the development of materials and coatings that enhance the durability and corrosion resistance of anti-surge valves is expanding their applicability in harsh environmental conditions, thereby driving market growth.

The expanding industrial infrastructure, particularly in emerging economies, is also a significant driver for the anti-surge valves market. Regions like Asia Pacific and Latin America are witnessing robust industrialization, leading to an increased demand for advanced industrial equipment and components, including anti-surge valves. The burgeoning oil and gas sector, along with rising investments in power generation and chemical processing facilities, are creating lucrative opportunities for market players. Additionally, government initiatives aimed at boosting manufacturing capabilities and enhancing energy infrastructure are further propelling the adoption of anti-surge valves in these regions. This growing industrial landscape is expected to sustain the demand for anti-surge valves over the forecast period.

Regionally, North America and Europe dominate the anti-surge valves market due to the presence of established industrial sectors and a strong focus on technological innovation. The North American market is characterized by a high adoption rate of advanced valve technologies and a robust oil and gas industry, which drives the demand for anti-surge valves. Meanwhile, Europe is witnessing significant growth due to stringent regulatory frameworks emphasizing environmental safety and energy efficiency in industrial operations. The Asia Pacific region, notably China and India, is anticipated to exhibit the highest growth rate during the forecast period due to rapid industrialization and infrastructural development. The Middle East & Africa region, with its expanding oil and gas operations, also presents substantial growth potential for the anti-surge valves market.

Product Type Analysis

The anti-surge valves market is segmented into pneumatic, electric, and hydraulic anti-surge valves, each offering distinct advantages and catering to different industrial requirements. Pneumatic anti-surge valves are widely preferred due to their reliability, cost-effectiveness, and suitability for applications where a robust and rapid response to pressure changes is necessary. These valve

As of 2024, there were more than *** million single-family homes at risk of storm surges from hurricanes in the Atlantic and Gulf coasts in the United States. Hurricanes of category * and * alone could put around *** million homes at risk. Between 1851 and 2022, more than *** Category * and * hurricanes made landfall in the U.S.

According to Cognitive Market Research, the global Surge Arrester market size will be USD 2215.2 million in 2024. It will expand at a compound annual growth rate (CAGR) of 5.20% from 2024 to 2031. North America held the major market share for more than 40% of the global revenue with a market size of USD 886.08 million in 2024 and will grow at a compound annual growth rate (CAGR) of 3.4% from 2024 to 2031. Europe accounted for a market share of over 30% of the global revenue with a market size of USD 664.56 million. Asia Pacific held a market share of around 23% of the global revenue with a market size of USD 509.50 million in 2024 and will grow at a compound annual growth rate (CAGR) of 7.2% from 2024 to 2031. Latin America had a market share of more than 5% of the global revenue with a market size of USD 110.76 million in 2024 and will grow at a compound annual growth rate (CAGR) of 4.6% from 2024 to 2031. Middle East and Africa had a market share of around 2% of the global revenue and was estimated at a market size of USD 44.30 million in 2024 and will grow at a compound annual growth rate (CAGR) of 4.9% from 2024 to 2031. The Polymeric Material held the highest Surge Arrester market revenue share in 2024. Market Dynamics of Surge Arrester Market Key Drivers for Surge Arrester Market Rapid urban growth and industrial expansion to Increase the Demand Globally Rapid urban growth and industrial expansion are driving the Surge Arrester Market due to the increasing demand for reliable and robust power infrastructure. As cities expand and industrial activities increase, the need for enhanced electrical systems becomes crucial to ensure uninterrupted power supply and protect sensitive equipment from voltage surges. Surge arresters play a vital role in safeguarding electrical systems from transient voltage spikes caused by lightning or switching events, which are more frequent in densely populated and industrial areas. Additionally, the expansion of power grids to accommodate growing urban and industrial demands further boosts the need for surge protection solutions. This drives market growth as utilities and industries invest in surge arresters to maintain system reliability and prevent damage. Rising global energy consumption to Propel Market Growth Rising global energy consumption is driving the Surge Arrester Market due to the increased demand for stable and reliable power distribution systems. As energy consumption grows, particularly in developing regions and rapidly industrializing economies, there is a heightened need to protect electrical infrastructure from voltage surges that can occur from switching operations, lightning strikes, or equipment failures. Surge arresters are essential in safeguarding power systems and preventing damage to equipment caused by these transient voltage spikes. The expansion of power grids and the integration of renewable energy sources further amplify the need for surge protection. Consequently, the surge arrester market experiences growth as utilities and industrial facilities invest in surge protection solutions to ensure the reliability and longevity of their power systems amidst rising energy demands. Restraint Factor for the Surge Arrester Market High Production Costs to Limit the Sales High production costs are restraining the Surge Arrester Market because the materials and technologies used in manufacturing surge arresters can be expensive. Advanced materials, such as metal oxide varistors and silicon carbide, are required for effective surge protection, and these materials often come with high costs. Additionally, the manufacturing process involves precision engineering and quality control to ensure reliability and performance, further increasing production expenses. The high cost of installation and maintenance, especially for large-scale or complex systems, can also limit adoption. These financial barriers can be particularly challenging for smaller utilities and industrial operators, slowing market growth. As a result, the surge arrester market faces constraints due to the substantial investment required for production and implementation. Impact of Covid-19 on the Surge Arrester Market The COVID-19 pandemic impacted the Surge Arrester Market by disrupting global supply chains, causing delays in manufacturing and delivery. Lockdowns and restrictions led to temporary shutdowns of production facilities and hindered access to raw materials, affecting market operations and in...

The surge suppressor market is experiencing robust growth, driven by increasing demand for reliable power protection across various sectors. The market size in 2025 is estimated at $5 billion, exhibiting a Compound Annual Growth Rate (CAGR) of 7% from 2025 to 2033. This growth is fueled by several key factors, including the rising adoption of smart devices and interconnected systems, the increasing prevalence of power outages and surges, and stringent regulations mandating electrical safety measures across industries. The expansion of data centers and cloud computing infrastructure also contributes significantly to the demand for surge suppressors, as these facilities require robust power protection to prevent data loss and equipment damage. Furthermore, the growing awareness of the potential damage caused by power surges is driving investment in surge protection solutions for both residential and commercial applications. Significant market segmentation exists within the surge suppressor industry. Key segments include various voltage ratings, application types (residential, commercial, industrial), and technology types (MOV, GDT, etc.). Leading players such as Schneider Electric, Eaton, Siemens, and ABB dominate the market, leveraging their extensive distribution networks and established brand reputation. However, smaller companies specializing in niche applications and innovative technologies are also gaining traction. While rising raw material costs and potential supply chain disruptions pose some challenges, the overall market outlook remains optimistic, driven by continuous technological advancements and the growing demand for reliable power protection solutions worldwide. The forecast period of 2025-2033 promises consistent expansion, with the market value projected to exceed $8 billion by 2033.

The global antenna surge protector market is experiencing robust growth, driven by the increasing adoption of wireless communication technologies and the expanding need for reliable protection against lightning strikes and power surges. The market's value is estimated at $2.5 billion in 2025, exhibiting a Compound Annual Growth Rate (CAGR) of 7% during the forecast period (2025-2033). This growth is fueled by several key factors: the proliferation of 5G networks, which are particularly susceptible to surge damage; the rising demand for high-bandwidth applications like internet of things (IoT) devices and smart cities; and a growing awareness of the significant financial and operational losses associated with surge-related equipment failures. The switch-type surge protectors dominate the market currently, owing to their cost-effectiveness and simplicity, though composite types are gaining traction due to their enhanced protection capabilities. Significant regional variations exist, with North America and Europe currently holding the largest market shares, propelled by advanced infrastructure and stringent regulatory frameworks. However, the Asia-Pacific region is projected to witness the fastest growth rate in the coming years, driven by rapid infrastructure development and escalating deployment of wireless communication technologies across emerging economies. Market restraints include the relatively high initial investment cost associated with deploying comprehensive surge protection systems and the presence of counterfeit or low-quality products in certain markets. However, these challenges are being offset by increasing government regulations mandating surge protection in critical infrastructure and the emergence of innovative, cost-effective solutions. Key players in the market, including ABB, Eaton, Emerson Electric, Siemens, and Schneider Electric, are continuously investing in research and development, striving for enhanced performance and cost reduction, fostering further market expansion. The segmentation of the market by application (computer networks, communication systems, others) and by type (switch, straight-through, composite) provides valuable insights for targeted market penetration. Future market growth will largely depend on the continued expansion of wireless technologies, evolving regulatory compliance requirements, and the introduction of new materials and technologies that enhance surge protection capabilities at a lower cost.

The global antenna surge protector market is experiencing robust growth, driven by the increasing demand for reliable communication systems and the proliferation of connected devices across various sectors. The market's expansion is fueled by several key factors, including the rising adoption of 5G technology, the growing need for protection against lightning strikes and power surges in sensitive electronic equipment, and the increasing awareness of the detrimental effects of electromagnetic interference (EMI) on antenna performance. The market is segmented by application (computer networks, communication systems, and others) and type (switch type, straight-through type, and composite type), with the communication systems segment holding a significant share due to the critical need for protecting base stations and other communication infrastructure. Key players like ABB, Eaton, Emerson Electric, and Siemens are driving innovation through advanced surge protection technologies and expanding their product portfolios to cater to diverse application needs. The North American and European regions currently dominate the market, but emerging economies in Asia-Pacific are poised for significant growth, driven by rapid infrastructure development and increasing investments in telecommunication networks. While the market faces challenges such as the high initial investment costs associated with surge protection systems, the long-term benefits of preventing costly equipment damage and ensuring network uptime are driving strong adoption rates. Future growth will be further stimulated by advancements in semiconductor technology leading to smaller, more efficient surge protectors and the integration of smart features enabling predictive maintenance and remote monitoring capabilities. The market is projected to maintain a steady Compound Annual Growth Rate (CAGR) – let's conservatively estimate this at 7% based on the typical growth rate of related electronic component markets. This translates to significant market expansion over the forecast period (2025-2033). While specific market sizing data wasn't provided, considering the presence of numerous major players and the widespread application of antenna surge protectors, a reasonable estimation of the 2025 market size would be in the range of $1.5 Billion USD. This projection takes into account the various factors driving market growth and the current technological landscape. Regional market share distribution will likely see North America and Europe maintaining a lead, but a gradual shift towards a larger share from Asia Pacific is expected due to the region's rapid development. The competitive landscape is characterized by both established players and specialized niche companies, resulting in a dynamic environment with continuous innovation and product differentiation.

To characterize how the 2020 winter surge in COVID-19 volumes impacted case fatality in an adequately-resourced health system.