Technological Trends in the Energy Sector

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The recent decade has been one of the prolific eras of the energy sectors highlighting some of the significant technological incorporations into the operations of the various firms in the industry. A common challenge experienced in the recent times includes the need to reverse the downtrend in revenue system in the sector. The traditional firms experience numerous challenges with the stagnant growth in sales turn over as the industry realizes massive decline in the electricity demand among the consumer. Several trends have been reported in the industry positing concerns in the industrial developments in the world today. The following findings were evident on the technology trends and capabilities in the energy sector of the economies in the world. 

The Current Technological trends in the Energy Industry

The emergence of new storage batteries, smartphone application managers as well as other innovations in the industry present huge challenge among the firms as consumers shift their demand from the traditional electricity systems to these modern innovations. The need to bridge this gap has been an upsurge in many firms around the world. Electricity manufacturers and other chain suppliers are simultaneously incorporating the various modern machines to help them monitor and explore the consumer behavior systems in the industry. Similarly, the commercial entities are engaged in practices that allow them to adapt to the new set of technological advancements within this industry. Small scale retailers in the society have adopted the use of digital monitoring and protection of their systems of operation. The retailers such as Walmart and McDonalds have responded in a similar way adjusting their energy consumptions appropriately to accommodate the rising concern on the gap of energy supply systems where the former lowered the consumption rates by 20% within the local branches while the latter increases the consumption rate by similar measures (Flaherty, Schwieters, & Jennings, 2017). This information indicates that the use of technology has become a crucial aspect of the industry intriguing many firms to adopt the new ways in productions and management in the society. The consequences of this move include a reduction in the general electricity demand in the world today (Flaherty, Schwieters, & Jennings, 2017).

Figure 1. Electricity demand levels and the use of technology among consumers in the market. (Flaherty, Schwieters, & Jennings, 2017).

Likewise, the focus on globalization influences the production of energy in various companies around the world. Globally, clean energy production is becoming a significant threat to the oil and gas firms diverting the attention of many users in the local market to the international arena. China, for instance, had approximately a third of the $330 billion global investment record in 2015 (Sumic, Steenstrup, Geschickter, & Foust, 2017). Some firms such as the Victorian producers have largely invested in the foreign markets to find a wider market based on the use of modern technology that helps in the promotional activities as entailed in the skillful application of the various aspects of innovation and creativity as indicated in various firms in the market (Biscardini, Morrison, Branson, & Maestro, 2017). Electricity is a universal utility required for general development in all sectors of the community. Most industrial activities concentrate on ascertaining sustainable global development aspects in the industry. The recent findings prove that both the emerging and the established firms focus on globalization as a common course to stabilizing the market system based on the gap created by the current trends in technology.

Moreover, the focus on the reduction of pollution contents and emission of harmful gases is another trend in the modern production system that focuses on the use of various aspects of the precision standard requirements in the industry. The projection of global emissions indicates an increased content of sulfur dioxide and nitrogen oxide compounds in the environment with slightly less than 7% improved investment in the global investment in the energy (Biscardini, Morrison, Branson, & Maestro, 2017). Emerging technological tools can be applied in monitoring the levels of emissions released in the process of energy production services (Energy and Air Pollution, n.d.). Globally, firms are focusing on reducing the level of greenhouse gas emission to help tackle the rising concerns on the issues of climate change and environmental degradations in the world today. This aspect is a common concern and a trend in the generation of power in almost every utility business enterprise in the world market today. Many communities around the world are currently propelled to invest on the rooftop solar products as well as the wind moved energy generation system challenging the revenue systems realized in the traditional power production systems in the market. Minimizing the release of greenhouse gases is a common pillar in the sustainable development goals in the global setting positing a comprehensive look into the various contexts of market systems.

With more than 1.5 billion of the world population unable to access urban designed electricity supply, solar energy production is slowly taking course in the universal market (Biscardini, Morrison, Branson, & Maestro, 2017). Such trends posit major threat concern on the development of various energy producers in the industry. Reports indicate that the countries such as Canada are embracing the ideology of solar energy to supply power to the populace (Sumic, 2017). Technically, the various technological firms in these segments constantly suffer reduced revenue outcome based on such contexts in the production cost reduction identified in the alternative ways in the society. Therefore, the prospects of power networking and systemic connection expansion to the rural areas postulate a comprehensive concern on the future of the company. The role of modernity and fashion has become a central theme in the production system within many of the local and foreign firms focusing on the roles of effective techniques as the only mechanisms of improving production in the markets systems. Ideally, most of the individuals in the current generation focus on fashion and trending products in the market.

The emergence of e-fuel product threatens the production of the traditional fuel systems in the industry (Lee & Lee, 2016). These fuel products are easily accessible in the contemporary society and make the sale of various olden production systems to become outdated in the markets and may hinder their progress in the same industrial systems. The operational of technology-based production to enhance the production of these e-fuels has had a crucial position in the growth of small firms merchandises around the world that seek to meet the rising demand for power in the world market system (Lee & Lee, 2016). Evidently, e-fuel production has become the norm in various parts of the world posting crucial concerns on the development of new small firms that merge to produce sustainable energy products in the market to make the consumers access the goods and services in the production systems in the industry. 

The United Nations projects that close to 20% of the world’s population will not be having electricity by 2030 owing to the growing population (Biscardini, Morrison, Branson, & Maestro, 2017). These data indicate that the current power supply system may not be sustainable. Countries are now shifting to wind fuel production as a mechanism to counter the rising demand among consumers as well as embrace the rising concern on the reduction of greenhouse gas emissions in the industry. Scientists claim that these gases have a higher potential of causing harm to the ecosystem if consistently produced in concentrative scales because it tends to affect the ozone layer resulting in climate change and other health concerns among the people. Besides, the solar technology and related production tend to be cheaper among the consumers and attract more customers into buying making the producers linger in a hanging gap that may not hold water in the long-term development systems of the industry (European Wind Energy Association, 2012).

At the same time, there is an apparent concern on the rising level of consumer demands and public engagements. The current generation is driven by technological mind dwelling on the use of power to produce various items. The rural societies are slowly expanding as the community members transform into modern methods of production and business transaction. This way, the use of power and other utility products has become a central aspect of existence among the society members with myriad firms focusing on how to meet the expanding demand of power and related products in the market.

The Endesa SA Company, for example, invested on the use of digital-driven techniques as the major approach in the market to maintain their status quo in the industry as one of the top performing firms in the society. Digital platforms such as the social media and the websites create an interactive platform in which the consumers can interact with the producers airing their concerns in a direct media making the feedback mechanism easy to access and comprehend for future development in the social analysis in the market. Ideally, the digital mechanism presents a huge system that can promote the operation of the various new firms in the market.

As a result, these technological concerns present multiple advantages to new companies and business organizations allowing them to venture into the energy productions. China invests in the use of technology to propel the industrial activities within the country claiming approximately 30% of the investment returns (de la Tour, Glachant, & Ménière, 2011). The computing advantages heightened in the adoption of technology-based production system have improved the level of knowledge utility. Cloud computing is a vital development in the use of technology that allows the firms to make use of artificial intelligence to produce various energy requirements in the market.

Similarly, the platforms provide user-friendly mechanisms in the industry that allow the consumers and other businesses to identify the gaps in the market structures enabling consistent improvement in the production designs within the same industry. Digitalized firms such as Deloitte and the competitors enjoy the benefits of using internet services as they seek to communicate with their consumers in the market with ease. The illustrations embedded in the upsurge present comprehensive analogy of the contextual aspects of technology in a way that even the small firms can venture into production and challenge the existing firms because of the cheap means of productions presented in the new platforms (Zhou, Fu, & Yang, 2016).

Current Technological Capabilities of the Utility Companies

Evidently, the utility corporations have had a higher chance of benefiting from the technological upsurge just like other industries in the world market (Lee & Lee, 2016). Many consumers have developed trust on the utilities creating technology-based systems to help them acquire and improve their energy consumption rates in the society. Thus, the role of innovation and creativity in the production technique has created competitive fronts in the industrial development within the utility companies in the industry. Firms such as Google create satisfactory messages to the consumers on their capabilities to enhance the power supply systems in the market. This indicates that utilizing information technology is one of the major capabilities embedded in the industrial development of these companies in the society (Flaherty, Schwieters, & Jennings, 2017).Through the use of these pieces of technology-bound information, the companies can focus on the collaborative approach to industrial development creating a universal chain of command in the industry. Mainly, the restructuring of the modern marketing systems helps create new opportunities in the market for new firms as it avails potential market gap ideas. Technology has numerous significant roles in the development of these companies. Most of the individual firms may focus on the use of technology to identify market gaps in the external environment creating massive opportunities for growth in the same industry (Lee & Lee, 2016). These aspects have fundamental roles in a comprehensive understanding of the industry indicating substantial growth of the various cognitive cells in the industry.

The other utility know-how is the smart meter technology enables energy transfer and monitoring technologies that enable the firms to understand the usages in the society. These technologies occur as gas meters and water meters (Flaherty, Schwieters, & Jennings, 2017). These steps empower the firms and the consumers by enabling them to monitor the consumption patterns in the industry. Such findings are crucial in understanding the concepts of technological concepts of the utility applications in the industry. In return, the resulting enterprises may have stronger economic empowerment in the community. Technically, the smart meters are becoming more prominent in the world market than most of the technological equipment in this era (Biscardini, Morrison, Branson, & Maestro, 2017). The smart meter appliances provide comprehensive approach to the management of the energy consumption systems enhancing the use of innovation and creativity in technology to influence the supply and demand of the electricity units. However, the high installation costs and the concern on data privacy is a crucial idea in the use of these smart systems in the industry. Such findings, according to the PcW, indicate a contextual upsurge in the use of technology for energy generations (Biscardini, Morrison, Branson, & Maestro, 2017).

At the same time, the different innovative technological ideas enhance leadership development and identification of new policies that can help the managers to explore the extrinsic factors of production in the utility companies (Sumic et al., 2017). Power production is a consistent commodity consumed by many buyers within the market prompting for effective leadership skills in the industry. Therefore, the companies utilize the modern boundaries of production technologies to explore the major outputs in the commercial segment generating comprehensive leadership structure embedded of objective-oriented policies in the industry. Consequently, the companies have the potential of engaging the consumers in productive sessions focusing on the use of various assets in the industry.

The socioeconomic innovative influences portrayed in the industry drags the utilities into digitalized platforms creating a contemporary concern on the roles of technology and innovation within the companies. The emergence of internet-based platforms create influential channels through the companies can source for external asset utilities as they venture into new market areas in the system. The upsurge in the use of these mechanisms presents a comprehensive analogy on the use of substantial engagement practices as a tool to winning more buyers and suppliers in the market (Sumic et al., 2017). This increase puts the various companies into a critical position that can propel the companies into the universal markets. Such roles are embedded in the influence of the innovative use of technological movements indicated by the rising contexts of developments within the industry (European Wind Energy Association, 2012).

Likewise, the digitalization of the various aspects of the production technique propels the management practices into higher notches in the industry making much of the utility practices to portray high ranks in the production steps. There are different postures exhibited by different utility companies around the globe. However, the role of information technology is pivotal in all cases making the production steps central in the sustainability of their production contexts within the same industry (Sumic et al., 2017).

The concepts of virtual realities and augmented realities portray the comprehensive nature of the various utility companies around the world today positing a clear framework under which the firms can lay foundations for future success in the market. These components dwell on the various market values as they compare the various values of recent production contexts against the traditional aspects of the same.

How Energy Companies Are Using Data as an Asset

The development of analytical practices has enhanced the performance of various firms in the energy as they can now analyze their asset performance in the market. The use of data systems in these electricity firms portrays a common concern in the entire production system. Technically, electricity and power sources present the wheel behind industrialization and state development around the world as the subjects focus on the use of technology and data to promote internal growth within the firms (Flaherty, Schwieters, & Jennings, 2017). This way, the organizations utilize the data systems in numerous ways. In most instances, the firms apply the data systems a silent asset within the production based on various aspects.

For the utility companies, data implies a proper relationship with the consumers. At the same time, the concept signifies the power of the company to demonstrate their positions in the market as they seek to compete with similar producers in the markets systems (de la Peña, Fernández, & González, 2016). Consequently, the focus on data sets indicates access to new business ideas in the market. The roles of data systems in the market structures highlight substantial role in the sustainability of the company.

Using data as an asset may include critical analysis of the market to generate new ideas and models of business operations a major input in the promotion of the actual asset in the market. The fluid nature of the products enhances the positioning of the companies stimulating their progressive agenda of sustainable developments in the markets in the society. These aspects of market value are crucial in the progressive aspects of marketing and promotion of goods and services in the industry (Sumic, 2017).

The data sets present a motivation force that allows fuel innovation in the production techniques in the market. The technological advancements harness the collection and storage of data making the operation of the system to become simple and attractive in the industrial management systems. Ideally, assets are components of business progress that define the sustainability of the business venture as they indicate the valuation of various aspects of the owner’s input in the market system. Therefore, proper record-keeping practice presents a complete valuation of the owner’s asset values in the market making data a major component of the asset values in the industry. No firm can establish the value of their assets where there is no data use.

The aspects of big data analytics present a comprehensive aspect of data analysis that allows various departments in the companies to focus on the development of various components of growth in the same systems. This kind of data analysis and reporting tool allows the firms to validate their sustainability levels in the market and invest in programs that can enhance their profit-making practices in the industry. In essence, data can create value to the asset base within the company as it makes consumers to understand the values of the market structures within the market. It is evident that most companies embrace the power of their data as a tool in promoting their products among the consumers in the industry (Sumic et al., 2017).

In addition, data is a fluid resource that moves across the various boundaries in the organizations making the system to bond on the operational duties. In the recent use of internet systems and the technology gadgets, data system estimations indicate that big data system will be the center of attention in the near future of energy production systems. The big data systems will help the companies to understand the market system posting as the fluid asset of companies in the market structures. Such concerns are fundamental in the development of the major production skills in the society. Innovation is the basis of progressive development within any set of the industry. As such, the focus on data as a mechanism of change in the technology usage may help in sustaining the individual development of the firms on numerous accounts in the industry. Other findings indicate that the big data ideology in itself is an innovation in the use of technology embracing the marketing fonts in the future operations in the energy sector. The boundaries in these settings enhance the promotion of multiple aspects of development in various systems in the community.

In conclusion, the technology trends have had significant impacts on the progress of the energy sector creating multiple capacity-building mechanisms in the industry. Currently, many firms in the industry use the modern contexts of technological development to explore and understand the market systems in the world. It is clear that technology trends including globalization, electronic systems, pollution reduction as well as the emergence of solar energy system have had a significant influence on the progress of various companies around the world. Therefore, the technology systems have a comprehensive approach to the market systems as they boost the main elements of the energy productions.

References

Biscardini, G., Morrison, R., Branson, D., & Maestro, A. (2017). Oil and gas trends. Retrieved from https://www.strategyand.pwc.com/trend/2017-oil-and-gas-trends

de la Peña, C., Fernández, D.G., & González, J.R. 2016. How analytics can improve asset management in electric-power networks.

Retrieved from: https://www.mckinsey.com/industries/electric-power-and-natural-gas/our-insights/how-analytics-can-improve-asset-management-in-electric-power-networks

de La Tour, A., Glachant, M., & Ménière, Y. (2011). Innovation and international technology transfer: The case of the Chinese photovoltaic industry. Energy Policy, 39(2), 761-770.

Energy and Air Pollution (n.d.). World energy outlook special report. Retrieved from: https://www.iea.org/publications/freepublications/publication/WorldEnergyOutlookSpecialReport2016EnergyandAirPollution.pdf

European Wind Energy Association. (2012). Wind energy-the facts: A guide to the technology, economics and future of wind power. London: Routledge.

Flaherty, T., Schwieters, N., & Jennings, S. (2017). 2017 Power and utilities trends. Retrieved from: https://www.strategyand.pwc.com/trend/2017-power-and-utilities-industry-trends

Lee, M., & Lee, S. (2016). Evaluating internal technological capabilities in energy companies. Retrieved from www.mdpi.com/1996-1073/9/3/145/pdf

Sumic, Z. (2017). Hype Cycle for utility industry IT. Stamford, CT: Gartner.

Sumic, Z., Kristian Steenstrup, K., Geschickter, C., & Foust, N. (2017). Top 10 Trends Shaping the 2017 Utility Industry on the Road to Digital Business. Retrieved from https://www.gartner.com/doc/3681025/top--trends-shaping-utility

Zhou, K., Fu, C., & Yang, S. (2016). Big data driven smart energy management: From big data to big insights.Renewable and Sustainable Energy Reviews, 56, 215-225.

January 19, 2024
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