E-House Market Growth Analysis By Size, Share, News, Demand, Opportunity During 2020-2025

The E-House market is expected to reach a CAGR of 6.5% during the forecast period of 2020 and 2025. E-house is customized pre-assembled and pre-tested modular power substations. By adding more intelligence to e-houses, it consolidates electrical and process control systems into one solution. Today more EPCs (Engineering, Procurement, and Construction) are using an intelligent packaged power system and expected that during the forecasted period, it supports the market growth. It can further help to reduce the design time and costs. Further, a unified system allows a transition from hard-wired to a networked approach with a reduction in material, labor, and documentation costs. It also supports end-user by one system for control, visualization, archiving, and reporting, which allow them to access real-time data from intelligent electrical devices to help operations and maintenance personnel make smarter faster decisions. - Adoption in the replacement of SF6 to lower environmental impact is driving the market. For decades, the unique properties of SF6 (Sulfur Hexafluoride) have made it popular as insulation and switching medium for electrical switchgear in e-house. However, SF6 is greenhouse gas, and its life-cycle management costs are incurred, particularly when the decommissioning of aging substations is on the rise. In recent years, ABB has been conducting research for alternatives with lower environmental impact with arc interruption and insulation properties similar to SF6. This mission has now been executed, and the world’s first gas-insulated switchgear (GIS) pilot installation to use a new gas mixture has recently been commissioned in Switzerland.

Click Here to Download Sample Report >> https://www.sdki.jp/sample-request-85984 - Further global manufacturers of medium-voltage switchgear are now seeing increased exposure to product stewardship requirements as a part of new equipment purchase contracts. Product stewardship is loosely defined as an elemenSF6t of Environmental, Health, and Safety (EHS), which includes a product-centered approach to environmental protection focusing on reducing the environmental impacts of products. These all factors support the drawback of SF6, and introducing new alternatives further helps to grow the demand of e-house in the market. - The digitalization of e-house is driving the market. The digital revolution is in progress and has already taken great steps in the energy segment, and it’s bringing immense opportunities and benefits. The impact of digitalization on electrical distribution is intended to improve operations and increase flexibility throughout the power value chain, from generation to customer relationship management. Already today, installing digital switchgear contributes greatly to increasing operation efficiency by optimizing switchgear footprint in the substation room and by using the energy efficiently for switchgear operation.

- For instance, in medium-voltage switchgear at 11 kV consisting of 30 panels, the width can be reduced by approx. 7% and switchgear energy consumption can be reduced by approx 300MWh during its lifetime. Today governments and regulatory bodies encourage smarter measuring systems and greener standards for generation and consumption and to use resources in a more efficient way. These initiatives create a demand for smarter distribution equipment such as digital switchgear, which assists in the growth of the market. ABB AbilityTM platform not only gives the possibility to link separate e-houses worldwide but also to gather data and conduct detailed, performance-enhancing analytics. - However, the impact of COVD-19 affected e-house market growth. The COVID-19 pandemic has shattered oil demand, sunk prices, and is posing a significant risk for those involved in oil extraction and processing. The disruption to Chinese oil has affected around the world. In February, the IEA noted demand had fallen by 435,000 barrels per day (BPD) in the first quarter of this year alone, which is the first quarterly contraction in demand in more than a decade. With the industry shut down and no new industry expansion and development, the demand for e-house has shattered significantly. - However, OPEC+ agreed to curtail oil production by approximately 10.0% (9.7 million barrel/day) by May 1. Further, the tight working conditions of mining facilities means workers are at the greatest immediate risk, and mining operations around the world have been placed into shutdown. For instance, South Africa’s platinum mines have been idled for the past three weeks since the last week of March 2019. Such instances highly affect the demand for mobile substation e-house. However, the Government of South Africa has agreed to allow the mining sector to operate at up to 50% of its production capacity during the nationwide lockdown, which can significantly cater to the demand. Key Market Trends Upstream Sector in Oil and Gas to Witness Significant Share - The exploitation of shale reserve has led to an increase in demand for energy and power services. According to IEA, the global gas demand is expected to grow by 1.6% a year for the next five years, with consumption reaching almost 4,000 billion cubic meters (bcm) by 2022, up from 3,630 bcm in 2016. China will account for 40% of this growth. Hence, the upstream segment is expected to be one of the largest segment for the e-house market. - Traditionally, players in the oil and gas industry obtain their switchgear, drives, and automation systems from multiple electrical equipment suppliers and obtain their electrical houses through fabricators. But the demand to reduce risk, costs, and delivery time has steered the industry away from this practice, and the part of CAPEX in the upstream sector is contributed to the e-house. - There is a clear trend towards consigning an integrated, installed, and pre-commissioned electrical and automation system together with the complete electrical house through various players. For instance, in June 2019, a multi-level E-house designed, engineered, and manufactured by Shaw Controls has been supplied as a fit-for-purpose solution at a South African port. - The solution comprises five modules: three at ground level, with two above. The substantial structure, including all electrical substation equipment, weighs approximately 90 tonnes. Further, an additional E-house comprising one module for a separate LV substation has also been supplied. - Further players such as Enexis announced to deploy eleven e-house substations in the northern Netherlands, where grid capacity for large scale clean energy projects, including oil and gas projects, is limited. The company said it would invest EUR 43 million in the plan to speed up the energy transition. - Further new construction projects for oil and gas are investing in the e-house deployment, which adds to the growth of the market. For instance, Petrobras announced they are developing a new natural gas processing plant in the site of its Rio de Janeiro Petrochemical Complex (Comperj) in Rio de Janeiro, Brazil. The plant, known as UPGN, is a part of the Rota 3 or Route 3 pipeline project and will be the largest of its type in the country. - It is estimated to cost around USD 600 million, where the plant will also be equipped with two processing trains. It will feature a customized e-house electrical solution, which will be the largest in Latin America. The e-house will be a modular outdoor enclosure covering an area of 800m². It will house electrical equipment, including transformers, switchboards, voltage panels, and bus ducts. The solution will connect all the electrical equipment involved in providing power, protection, and distribution, and reduce the risk of outages.

Click Here to Download Sample Report >> https://www.sdki.jp/sample-request-85984  

North America Accounts to Hold Significant Market Share - North America is accounted for to hold a significant market share. With increasing industrial units in oil and gas, mining, etc., and further with the residing of global players such as ABB Ltd, Siemens AG, etc., the market tends to grow significantly. - Canada is one of the largest producers of oil and gas in the world. Their oil and gas industry plays an important role in the country’s economy. Oil sands remain its primary source of hydrocarbon production, comprising over 90% of the country's total oil reserves. As per the Canadian Association of Petroleum Producers (CAPP), the oil production in the country is expected to reach 5.4 billion bbl/d in 2030, and oil sands are expected to account for 70.7% of the total production. This caters to the demand of e-house during the forecasted period. - Further, according to the US Geological Survey, the capacity utilization of the United States mining industry is gradually increasing since 2016. In 2019, capacity utilization increased to 91%. ABB provides pre-fabricated containerized e-houses for mining applications. The e-house can also be installed close to the main loads, which reduces the power and control cable size and length. Its ABB's MineOptimize e-house solution can lead to cost savings upto 40%. - Further, utilities provide the public with essential commodities or services such as power, water, and natural gas. The number of electric utility companies operates in the United States country is estimated at over 3,300, with around 200 of them providing power to the majority of users. Further applications in an internal and external lighting system, fire suppression system, Heating, ventilation, and air-conditioning (HVAC) drives the growth of e-house in the United States. - Furthermore, Huge shale gas development across North America and offshore deepwater exploration and production activities were the hallmarks of the oil & gas industry in the past decade owing to advancements in technologies. However, the crude oil price plunge has impacted this industry in the past few years, and its trading way below its all-time high. FPSO/FSO and wellhead platform for offshore production and refining complexes require an integrated electrical solution, which led the oil & gas industry for the demand of an e-house solution. Competitive Landscape The e-house market is fragmented in nature due to a greater number of companies offering an e-house solution. Further, with the current presence of numerous international and regional players, they are offering innovative solutions to save the energy in industrial units with other functionality that results in a highly competitive market environment. Key players are ABB Ltd, Siemens AG. Recent developments in the market are - - February 2020 - GE Power successfully delivered an e-house and VSDS to the petrochemical plant controlled by Shell Nederland Chemie B.V. GE’s VSDS encompasses high-speed induction motor and variable speed drive, steadily reaching over approximately 90% energy efficiency for the compressor train. Reasons to Purchase this report: - The market estimate (ME) sheet in Excel format - 3 months of analyst support

For more information, please contact:

Hina Miyazu

Shibuya Data Count Email: [email protected] Tel: + 81 3 45720790

Related Links https://www.sdki.jp/

Data Centers Are Getting Hotter, Driving Demand for More Cooling

Data centers are getting denser, hotter and consuming more power than ever, and that’s driving significant growth in the data center cooling market. According to a new report by Global Market Insights (GMI), the market is set to exceed $20 billion by 2024, up from just $8 billion in 2016. That represents a compound annual growth rate of more than 12 percent.

Not long ago, the typical data center rack or cabinet had a power density of about 5kW. Today, it’s not uncommon to see power densities of twice that or even much more. Higher densities mean more computing power per square foot, which keeps the lid on operational cost and the need for data center expansion.

Increasing adoption of solid-state drives (SSDs) has helped to reduce the heat load — compared to traditional disk storage, SSDs generate very little heat. However, CPUs are running hotter due to increasing numbers of sockets and cores. In addition, many servers now have GPUs and large amounts of memory, which means even more heat. Data center operators must ensure that this heat is removed and not recirculated, leading to growing demand for more efficient cooling systems.

The rising number of racks and increasing rack power density has led more data center operators to opt for liquid cooling systems, according to the GMI report. Chilled-water systems are generally more efficient than refrigerant-based systems because water has about four times the thermal capacity of air. However, data centers have been slow to adopt liquid cooling due to its higher cost and concerns about water leaks around sensitive equipment.

Most data center operators are focused on proven techniques such as hot- and cold-aisle containment. However, the GMI report also notes that more operators are implementing containerized and modular data centers because of their efficiency and ability to adapt to a wide range of conditions.

In-row and rack-based cooling units will see the highest rate of growth, GMI says. These systems create a shorter airpath and more precise cooling than traditional computer room air conditioner (CRAC) and computer room air handler (CRAH) units. Because capacity is targeted to the actual needs of equipment, electricity costs generally are lower with row- and rack-based cooling compared to CRAC and CRAH units.

Green data centers are gaining traction due to the need for cooling systems as they utilize renewable sources of energy. In the right climate, data centers can even take advantage of free cooling — using cold outside air to chill water for liquid cooling systems.

Installation and deployment represent the biggest chunk of the data center cooling systems market. However, demand for maintenance and support services is growing rapidly as organizations seek help managing and optimizing their cooling plants. Operators are looking to reduce the power consumed by cooling systems, which typically represent about 40 percent of total data center energy consumption.

Rahi Systems offers a comprehensive suite of cooling systems and solutions, backed by experts with years of experience in design, implementation and management. If your data center is getting hotter, let Rahi help you keep your cool.

Global Modular Data Center IT Equipment Market Size, Pricing, Sales Volume, Demands, Growth & Trends 2017

Global Modular Data Center IT Equipment Industry 2017 Market Overview, Size, Share, Trends, Analysis, Technology, Applications, Growth, Market Status, Demands, Insights, Development, Research and Forecast 2017-2020.

The market intelligence publication delves into the condition of the global Modular Data Center IT Equipment market. An in-depth examination of the existing market state, past progress, and forthcoming prospects of the global Modular Data Center IT Equipment market has been presented in the research report. The research publication also reports the chief strategies, key market shares, and product portfolio of the principal participants in work in the global Modular Data Center IT Equipment market.

To Get Sample Copy of Report visit @ http://www.qyresearchreports.com/sample/sample.php?rep_id=953560&type=E

The research report provides an intrusive insight into the global market for Modular Data Center IT Equipment based on principal parameters such as technology, end user, products, applications, and geographical segments. The assessed volume and revenue progress of the global market for Modular Data Center IT Equipment over the coming years has also been stated in the market intellect publication. The study furthermore deals with the key geographical subdivisions of the global Modular Data Center IT Equipment market and provides details about their previous and existing shares. The trends leading in the global Modular Data Center IT Equipment market have also been emphasized in the research report. The market study further provides an estimate of the aspects that are expected to influence the development of the market in an adverse or constructive manner. The global Modular Data Center IT Equipment market has been methodically inspected with regards to the equivalent market segments and estimation period. Each year within the distinct timeline has been briefly measured in terms of the value of the produce in the regional as well as global Modular Data Center IT Equipment market.

To give a clear idea of the global Modular Data Center IT Equipment market, the vendor landscape has been extensively gauged and also put into understanding along with the value chain analysis. Evidence on the ongoing and to be introduced research and development activities and funds raised for innovation purpose has also been delivered in the research report.

Browse Complete Report with TOC @ http://www.qyresearchreports.com/report/global-modular-data-center-it-equipment-market-research-report-2017.htm

Table of Contents

Global Modular Data Center IT Equipment Market Research Report 2017 1 Modular Data Center IT Equipment Market Overview 1.1 Product Overview and Scope of Modular Data Center IT Equipment 1.2 Modular Data Center IT Equipment Segment by Type 1.2.1 Global Production Market Share of Modular Data Center IT Equipment by Type in 2015 1.2.2 Containerized Data Centers 1.2.3 Modular Product 1.2.4 MicroModule 1.3 Modular Data Center IT Equipment Segment by Application 1.3.1 Modular Data Center IT Equipment Consumption Market Share by Application in 2015 1.3.2 IT 1.3.3 Power 1.3.4 Other 1.4 Modular Data Center IT Equipment Market by Region 1.4.1 North America Status and Prospect (2012-2022) 1.4.2 Europe Status and Prospect (2012-2022) 1.4.3 China Status and Prospect (2012-2022) 1.4.4 Japan Status and Prospect (2012-2022) 1.4.5 Southeast Asia Status and Prospect (2012-2022) 1.4.6 India Status and Prospect (2012-2022) 1.5 Global Market Size (Value) of Modular Data Center IT Equipment (2012-2022)

2 Global Modular Data Center IT Equipment Market Competition by Manufacturers 2.1 Global Modular Data Center IT Equipment Production and Share by Manufacturers (2015 and 2016) 2.2 Global Modular Data Center IT Equipment Revenue and Share by Manufacturers (2015 and 2016) 2.3 Global Modular Data Center IT Equipment Average Price by Manufacturers (2015 and 2016) 2.4 Manufacturers Modular Data Center IT Equipment Manufacturing Base Distribution, Sales Area and Product Type 2.5 Modular Data Center IT Equipment Market Competitive Situation and Trends 2.5.1 Modular Data Center IT Equipment Market Concentration Rate 2.5.2 Modular Data Center IT Equipment Market Share of Top 3 and Top 5 Manufacturers 2.5.3 Mergers & Acquisitions, Expansion

3 Global Modular Data Center IT Equipment Production, Revenue (Value) by Region (2012-2017) 3.1 Global Modular Data Center IT Equipment Production by Region (2012-2017) 3.2 Global Modular Data Center IT Equipment Production Market Share by Region (2012-2017) 3.3 Global Modular Data Center IT Equipment Revenue (Value) and Market Share by Region (2012-2017) 3.4 Global Modular Data Center IT Equipment Production, Revenue, Price and Gross Margin (2012-2017) 3.5 North America Modular Data Center IT Equipment Production, Revenue, Price and Gross Margin (2012-2017) 3.6 Europe Modular Data Center IT Equipment Production, Revenue, Price and Gross Margin (2012-2017) 3.7 China Modular Data Center IT Equipment Production, Revenue, Price and Gross Margin (2012-2017) 3.8 Japan Modular Data Center IT Equipment Production, Revenue, Price and Gross Margin (2012-2017) 3.9 Southeast Asia Modular Data Center IT Equipment Production, Revenue, Price and Gross Margin (2012-2017) 3.10 India Modular Data Center IT Equipment Production, Revenue, Price and Gross Margin (2012-2017)

4 Global Modular Data Center IT Equipment Supply (Production), Consumption, Export, Import by Regions (2012-2017) 4.1 Global Modular Data Center IT Equipment Consumption by Regions (2012-2017) 4.2 North America Modular Data Center IT Equipment Production, Consumption, Export, Import (2012-2017) 4.3 Europe Modular Data Center IT Equipment Production, Consumption, Export, Import (2012-2017) 4.4 China Modular Data Center IT Equipment Production, Consumption, Export, Import (2012-2017) 4.5 Japan Modular Data Center IT Equipment Production, Consumption, Export, Import (2012-2017) 4.6 Southeast Asia Modular Data Center IT Equipment Production, Consumption, Export, Import (2012-2017) 4.7 India Modular Data Center IT Equipment Production, Consumption, Export, Import (2012-2017)

5 Global Modular Data Center IT Equipment Production, Revenue (Value), Price Trend by Type 5.1 Global Modular Data Center IT Equipment Production and Market Share by Type (2012-2017) 5.2 Global Modular Data Center IT Equipment Revenue and Market Share by Type (2012-2017) 5.3 Global Modular Data Center IT Equipment Price by Type (2012-2017) 5.4 Global Modular Data Center IT Equipment Production Growth by Type (2012-2017)

6 Global Modular Data Center IT Equipment Market Analysis by Application 6.1 Global Modular Data Center IT Equipment Consumption and Market Share by Application (2012-2017) 6.2 Global Modular Data Center IT Equipment Consumption Growth Rate by Application (2012-2017) 6.3 Market Drivers and Opportunities 6.3.1 Potential Applications 6.3.2 Emerging Markets/Countries

Read More @ http://www.qyresearchreports.com/category/machinery-market-reports-169.htm

Contact Us 1820 Avenue M Suite #1047 Brooklyn, NY 11230 United States Toll Free: 866-997-4948 (USA-CANADA) Tel: +1-518-621-2074 Web: http://www.qyresearchreports.com Email: [email protected] Follow us on Linkedin @ http://bit.ly/2c0W5l2