Companhia Energetica de Minas Gerais (CIG) and Duke Energy Corporation (NYSE:DUK …

We can see in table 1 the earnings per share, gross revenue and valuation of Companhia Energetica de Minas Gerais and Duke Energy Corporation.

We are contrasting Companhia Energetica de Minas Gerais (NYSE:CIG) and Duke Energy Corporation (NYSE:DUK) on their institutional ownership, profitability, risk, analyst recommendations, dividends, earnings and valuation. They both are Electric Utilities companies, competing one another.

Valuation & Earnings

Gross Revenue Price/Sales Ratio Net Income Earnings Per Share Price/Earnings Ratio
Companhia Energetica de Minas Gerais 4 0.00 N/A 0.30 12.08
Duke Energy Corporation 89 2.68 N/A 4.12 21.05

We can see in table 1 the earnings per share, gross revenue and valuation of Companhia Energetica de Minas Gerais and Duke Energy Corporation. Duke Energy Corporation is observed to has higher revenue and earnings than Companhia Energetica de Minas Gerais. When business has lower price-to-earnings means it is more affordable than its counterpart presently. Companhia Energetica de Minas Gerais is thus presently the affordable of the two stocks because it has a lower price-to-earnings ratio.

Profitability

Table 2 provides Companhia Energetica de Minas Gerais and Duke Energy Corporation’s net margins, return on equity and return on assets.

Net Margins Return on Equity Return on Assets
Companhia Energetica de Minas Gerais 0.00% 13.7% 4%
Duke Energy Corporation 0.00% 6.8% 2%

Volatility & Risk

Companhia Energetica de Minas Gerais’s volatility measures that it’s 75.00% less volatile than Standard and Poor’s 500 due to its 0.25 beta. Competitively, Duke Energy Corporation’s beta is 0.12 which is 88.00% less volatile than Standard and Poor’s 500.

Liquidity

Companhia Energetica de Minas Gerais’s Current Ratio is 1.2 while its Quick Ratio is 1.2. On the competitive side is, Duke Energy Corporation which has a 0.7 Current Ratio and a 0.5 Quick Ratio. Companhia Energetica de Minas Gerais is better positioned to pay off short and long-term obligations compared to Duke Energy Corporation.

Analyst Recommendations

Companhia Energetica de Minas Gerais and Duke Energy Corporation Recommendations and Ratings are available on the next table.

Sell Ratings Hold Ratings Buy Ratings Rating Score
Companhia Energetica de Minas Gerais 0 0 0 0.00
Duke Energy Corporation 0 5 0 2.00

Competitively Duke Energy Corporation has a consensus target price of $90.2, with potential upside of 0.50%.

Insider & Institutional Ownership

Roughly 10.8% of Companhia Energetica de Minas Gerais shares are owned by institutional investors while 62% of Duke Energy Corporation are owned by institutional investors. Insiders owned roughly 1% of Companhia Energetica de Minas Gerais’s shares. Comparatively, insiders own roughly 0.1% of Duke Energy Corporation’s shares.

Performance

In this table we provide the Weekly, Monthly, Quarterly, Half Yearly, Yearly and YTD Performance of both pretenders.

Performance (W) Performance (M) Performance (Q) Performance (HY) Performance (Y) Performance (YTD)
Companhia Energetica de Minas Gerais -1.88% -4.44% 0.27% -1.88% 72.07% 2.81%
Duke Energy Corporation -0.53% -1.47% -4.08% 0.78% 7.37% 0.49%

For the past year Companhia Energetica de Minas Gerais’s stock price has bigger growth than Duke Energy Corporation.

Summary

Duke Energy Corporation beats Companhia Energetica de Minas Gerais on 8 of the 11 factors.

Companhia Energética de Minas Gerais, through its subsidiaries, engages in the generation, transmission, distribution, and sale of electricity in Brazil. The company generates electricity through renewable energy sources, such as water, wind, sun, and biomass; or non-renewable sources, including fossil and nuclear fuels. As of December 31, 2016, it operated hydroelectric plants, thermoelectric plants, and solar plants with a total installed capacity of approximately 8,000 megawatts in 10 states of Brazil. It is also involved in the telecommunications and energy solutions consulting businesses; exploitation of natural gas; sale and trading of electricity; and acquisition, transport, and distribution of gas and its subproducts and derivatives, as well as provision of technology systems and systems for operational management of public service concessions, including companies operating in electricity, gas, water and sewerage, and other utility companies. The company was founded in 1952 and is headquartered in Belo Horizonte, Brazil.

Duke Energy Corporation, together with its subsidiaries, operates as an energy company in the United States. It operates through three segments: Electric Utilities and Infrastructure, Gas Utilities and Infrastructure, and Commercial Renewables. The Electric Utilities and Infrastructure segment generates, transmits, distributes, and sells electricity in the Carolinas, Florida, and the Midwest; uses coal, hydroelectric, natural gas, oil, renewable generation, and nuclear fuel to generate electricity; and engages in the wholesale of electricity to municipalities, electric cooperative utilities, and other load-serving entities. This segment serves approximately 7.5 million retail electric customers in 6 states in the Southeast and Midwest regions of the United States covering a service territory of approximately 95,000 square miles; and owns approximately 49,300 megawatts (MW) of generation capacity. The Gas Utilities and Infrastructure segment distributes natural gas to residential, commercial, industrial, and power generation natural gas customers; and owns, operates, and invests in various pipeline transmission and natural gas storage facilities. It has approximately 1.5 million customers, including 1 million customers located in North Carolina, South Carolina, and Tennessee, and as well as 529,000 customers located in southwestern Ohio and northern Kentucky. The Commercial Renewables segment acquires, builds, develops, and operates wind and solar renewable generation projects, including nonregulated renewable energy and energy storage services to utilities, electric cooperatives, municipalities, and commercial and industrial customers. This segment has 21 wind farms and 63 commercial solar farms with a capacity of 2,900 MW across 14 states. The company was formerly known as Duke Energy Holding Corp. and changed its name to Duke Energy Corporation in April 2005. Duke Energy Corporation was incorporated in 2005 and is headquartered in Charlotte, North Carolina.

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Global Wireless Power Transmission System Market 2019 Overview by: Qualcomm, Samsung …

Following are the Leading Manufacturers – Qualcomm, Inc., Samsung Electronics Co., Ltd., TDK Corporation, Texas Instruments, Inc., Nucurrent, Inc., …

Wireless Power Transmission System

All-inclusive Wireless Power Transmission System Market is a recently Published Research Report that covers every aspect of Global Wireless Power Transmission System 2019 along with in-detailed analysis of growth elements, trends, size, demand and distribution. This report also evaluates the past and current Wireless Power Transmission System values to predict future market directions between the forecast period 2019 to 2025. This Research Report segments the Wireless Power Transmission System industry according to Type, Application and Regions. Wireless Power Transmission System Competitive Analysis: The existence of large, small and local vendors in the market creates high competition. Following are the Leading Manufacturers – Qualcomm, Inc., Samsung Electronics Co., Ltd., TDK Corporation, Texas Instruments, Inc., Nucurrent, Inc., Powermat Technologies, Ltd., Powerbyproxi, Ltd., Witricity Corporation, Convenientpower Hk, Ltd., Salcomp, Leggett & Platt, Inc, Energizer Holdings, Inc., Murata Manufacturing Co., Ltd., LG Electronics Inc, Texzon Technologies, Ltd.

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The changing consumer patterns in terms of Market Competitions, due to the influence of western culture have also fueled the demand for Wireless Power Transmission System market. New product development, high investment in R&D and growing demand in the developing world are growth opportunities for the Agriculture, Chemical Industry, Textile Industry, Pharmaceutical Industry, Other industries. Wireless Power Transmission System Market report presents a Primary overview of the Wireless Power Transmission System Market with recent Trends, Product types, as well as definitions, Top Manufacturer, applications, business chain structure and developing methods. To estimate the size of various other dependent sub markets in the overall market. Key players in the market have been identified through secondary research, and their market shares have been determined through primary and secondary research. All percentage shares, splits, and breakdowns have been determined using secondary sources and verified primary sources.

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Market Segmentation by Applications: Consumer Electronics, Healthcare, Automotive, Industrial, Others

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Let you Know about our Huge Demand of Following 15 Chapters in Global Wireless Power Transmission System Market

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Chapter 5 and 6: Regional Market Analysis that includes the United States, China, Europe, Japan, Korea & Taiwan, Wireless Power Transmission System Segment Market Analysis (by Type)

Chapter 7 and 8: The Wireless Power Transmission System Segment Market Analysis (by Application) Major Manufacturers Analysis of Wireless Power Transmission System.

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Chapter 10: Regional Marketing Type Analysis, International Trade Type Analysis, Supply Chain Analysis.

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WINTON GROUP Ltd Reduces Stock Holdings in Clean Energy Fuels Corp (NASDAQ:CLNE)

WINTON GROUP Ltd lessened its position in Clean Energy Fuels Corp (NASDAQ:CLNE) by 19.2% in the 2nd quarter, according to its most recent …

Clean Energy Fuels logoWINTON GROUP Ltd lessened its position in Clean Energy Fuels Corp (NASDAQ:CLNE) by 19.2% in the 2nd quarter, according to its most recent Form 13F filing with the SEC. The institutional investor owned 26,923 shares of the utilities provider’s stock after selling 6,416 shares during the period. WINTON GROUP Ltd’s holdings in Clean Energy Fuels were worth $72,000 as of its most recent filing with the SEC.

Other large investors have also recently modified their holdings of the company. Weiss Asset Management LP acquired a new position in Clean Energy Fuels during the first quarter worth $74,000. Trust Co. of Toledo NA OH increased its position in Clean Energy Fuels by 20.2% during the first quarter. Trust Co. of Toledo NA OH now owns 23,042 shares of the utilities provider’s stock worth $71,000 after acquiring an additional 3,872 shares during the period. EAM Global Investors LLC bought a new position in Clean Energy Fuels during the first quarter worth about $1,406,000. Acadian Asset Management LLC bought a new position in Clean Energy Fuels during the first quarter worth about $398,000. Finally, Moors & Cabot Inc. increased its position in Clean Energy Fuels by 658.3% during the first quarter. Moors & Cabot Inc. now owns 150,900 shares of the utilities provider’s stock worth $462,000 after acquiring an additional 131,000 shares during the period. 28.54% of the stock is owned by hedge funds and other institutional investors.

NASDAQ:CLNE traded up $0.07 during mid-day trading on Tuesday, hitting $2.71. 14,553 shares of the company’s stock were exchanged, compared to its average volume of 570,058. The company has a debt-to-equity ratio of 0.20, a current ratio of 3.16 and a quick ratio of 2.68. Clean Energy Fuels Corp has a fifty-two week low of $1.61 and a fifty-two week high of $3.47. The stock’s 50 day moving average is $2.62. The company has a market cap of $546.42 million, a price-to-earnings ratio of -45.00 and a beta of 1.93.

Clean Energy Fuels (NASDAQ:CLNE) last released its quarterly earnings data on Thursday, May 9th. The utilities provider reported ($0.02) earnings per share for the quarter, beating the consensus estimate of ($0.03) by $0.01. The company had revenue of $77.70 million during the quarter. Clean Energy Fuels had a negative net margin of 8.38% and a negative return on equity of 5.43%. On average, analysts forecast that Clean Energy Fuels Corp will post -0.12 earnings per share for the current year.

CLNE has been the topic of a number of recent research reports. ValuEngine raised shares of Zillow Group from a “hold” rating to a “buy” rating in a research report on Thursday, July 11th. Zacks Investment Research downgraded shares of Hallmark Financial Services from a “buy” rating to a “hold” rating in a research note on Thursday, July 25th. Finally, BidaskClub upgraded shares of WSFS Financial from a “strong sell” rating to a “sell” rating in a research note on Tuesday.

About Clean Energy Fuels

Clean Energy Fuels Corp. provides natural gas as an alternative fuel for vehicle fleets in the United States and Canada. The company supplies renewable natural gas (RNG), compressed natural gas (CNG), and liquefied natural gas (LNG) for light, medium, and heavy-duty vehicles; and offers operation and maintenance services for public and private vehicle fleet customer stations.

Read More: Marijuana Stocks

Institutional Ownership by Quarter for Clean Energy Fuels (NASDAQ:CLNE)

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India to focus on buildings of the future: Building Innovation Guide

It is funded by Tiger Global and Accel Partners. Facilio harnesses IoT and AI to centrally consolidate existing building systems and automation data …
building Innovation guide

Building Innovation Guide

Today, the Building Innovation Guide (BIG) a premier guidebook authored by researchers at the Lawrence Berkeley National Lab (Berkeley Lab) and funded by the U.S. Department of Energy, was launched in India. This is a result of a successful longstanding cooperative relationship between the U.S. and Indian government, and recognized as one of the activities under the Power and Energy Efficiency pillar of the U.S.-India Energy Strategic Partnership or SEP.

India is poised to become the world’s fifth-largest economy, with the buildings sector representing over 30 percent of the nation’s energy consumption. Energy conservation is an important part of India’s overall energy plan and can contribute significantly to the nation’s ability to sustain its growth.

How we build today sustainably, will define the course of history.

The Building Innovation Guide provides technical recommendations for achieving high-performance Indian office buildings that are smart, green, and energy-efficient. The best practices recommended in the BIG are particularly suited to the climatic, cultural, and construction context of India, thereby offering localized solutions. The best practice recommendations are classified into three categories: Whole-building Design, Building Physical Systems, and Building Information Systems.

building Innovation guide

Team Profile of building innovation guide

Reshma Singh, the lead author of the Building Innovation Guide and Program Director of the U.S.-India Center for Building Energy Research and Development (CBERD), has studied architecture in Delhi and from Harvard University’s Graduate School of Design. Singh said, “India is at an inflection point. Because of the extraordinary pace of new construction, the buildings sector is recognized as a crucial area to create energy-efficiency. High-performance is important not just in design, but for operational excellence, in order to create smart, healthy, and resource-optimized built infrastructure. The Building Innovation Guide draws on years of U.S. buildings R&D, computer simulations, and on-the-ground research in India to present best practice strategies that combine innovative technologies with traditional wisdom. These best practices can drive triple-bottom-line benefit for people, profit, and the planet.”

Insights from the BIG are being shared across the nation in summer 2019, through a series of “BIGathon” events in five host cities Hyderabad, Mumbai, Delhi, Trivandrum, and Bengaluru. BIGathon events are being held in collaboration with Facilio, JLL, US Trade and Development Agency, American National Standards Institute, Confederation of Indian Industry, U.S.-India Business Council, Mahindra, U.S.-India Strategic Partnership Forum, the Energy Management Centre Kerala, the Nitte School of Architecture, and the World Resources Institute.

The BIGathon events seek to take the BIG research into the hands of five primary stakeholders in the built infrastructure arena—urban policymakers; developers and builders; building operators and occupants; architecture and engineering practitioners; and building products and materials industry. The aim is to align on a common sustainability framework for buildings and beyond, i.e. in the areas of building materials and IoT, smart grid, energy technologies, renewables, and battery storage to enable aggressive energy targets. Integrated, these provide a tremendous opportunity for strategic, sustainable urban growth.

“India’s real estate industry is scaling tremendously. I believe that BIGathon is a change-maker that brings together stakeholders and policymakers from India and the U.S. to create a combined perspective for energy-efficient and high-performance buildings of the future,” added Prabhu Ramachandran, CEO and Co-Founder, Facilio.

The BIGathon is a unique opportunity to build innovation into the ecosystem- for U.S. and India thought leaders to network, collaborate and create a movement- to decarbonise, digitise, and democratise the built infrastructure.

About Facilio:

Headquartered in Atlanta (USA), with operations in UAE and India, Facilio is an enterprise-wide platform solution for real-time facilities operations & maintenance (O&M). It is funded by Tiger Global and Accel Partners. Facilio harnesses IoT and AI to centrally consolidate existing building systems and automation data across the portfolio, onto the cloud. It offers applications and modules for property owners to effectively manage and control portfolio-wide O&M activities in real-time, organise maintenance, compliance, and vendor workflows, improve asset lifecycle and sustainability performance, and engage with tenants.

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Tesla: How Elon Musk’s “Terawatt-Hour” Battery Plan May Spark Shift to Clean Energy

Elon Musk wants to transition the world onto renewable energy sources, but to do so, the world’s going to need a lot more energy storage. The CEO …

Elon Musk wants to transition the world onto renewable energy sources, but to do so, the world’s going to need a lot more energy storage. The CEO outlined a new battery production goal during Tesla’s second-quarter earnings call on Wednesday, hinting that the company could eventually produce multiple terawatt-hours of storage per year.

“In order to really make a fundamental shift in the world’s energy usage and really transform things to a sustainable energy future, if you’re not in the terawatt-hour range, it’s like, it’s a nice news story but it is not fundamentally changing the energy equation,” Musk told investors during the afternoon conference call.

It’s the sort of move that could spark a bigger jump to renewables. Batteries are vital for renewable energy because they ensure a steady stream of power throughout the day.

After all, when the sun isn’t shining and the wind isn’t blowing, solar and wind generators aren’t going to keep the lights on.

The Tesla-built Hornsdale battery in Australia, completed in November 2017, uses 129 megawatt-hours to store wind energy from nearby turbines and provide enough power for 30,000 homes. The Arsenal Football Club in London has a large enough battery to power the stadium for an entire 90-minute match, and GivePower is using batteries and solar to run a desalination plant 24 hours a day.

GivePower in Kiyunga
GivePower in Kiyunga
GivePower in Kiyunga.

In the wake of booming demand and a need for more capacity, battery production is soaring. Benchmark Minerals states that annual global production jumped from 19 gigawatt-hours in 2010 to 160 gigawatt-hours in 2019.

A staggering 68 plants could add a further 1.45 terawatt-hours to the mix by 2028.

There is still a long way to go: The IEA estimates that global electricity demand reached 23,000 terawatt-hours last year. Renewables accounted for around 24 percent of electricity in 2017, a figure that could reach 30 percent by 2023.

Of course, it’s not necessary to produce enough batteries to hold all of the world’s energy at once. Musk previously stated that 100 of his company’s Gigafactories could produce enough storage to transition the world onto sustainable energy. With Musk planning to send Tesla’s production skyrocketing, it could bring this goal within squinting distance.

tesla australia battery
tesla australia battery
The Tesla battery in South Australia.

Elon Musk’s Terawatt-Hour Plan: How It Currently Stacks Up

Tesla’s Gigafactory behemoth in the Nevada desert reached an annual production rate of 20 gigawatt-hours in August 2018. That in and of itself was an achievement, as it made the firm the largest producer of battery power in the world, and it meant that Tesla produces more capacity than all other automakers combined.

The Gigafactory now produces around 28 gigawatt-hours of battery capacity per year, Musk explained Wednesday. Including factories in Japan that further supplement the electric car lineup, the firm reaches between 30 to 35 gigawatt-hours.

Work on the Gigafactory is not complete. The company is aiming to reach an annual production rate of 150 gigawatt-hours of battery pack production per year. This would be a rate that Musk has previously described as “faster than bullets leaving a machine gun.”

Musk has stated that 100 such factories would be enough to transition the world onto sustainable energy.

But none of this is enough for Musk, who now wants to see the company reach “multiple terawatt-hours per year.”

More information about this goal could come soon. Musk suggested that a battery day, similar to the autonomous driving day, could offer “a comprehensive review of cell chemistry, module and pack, architecture, and a manufacturing plan that has a clear roadmap to a terawatt-hour per year.” That could arrive sometime between February and March 2020.

Tesla is planning to launch new vehicles next year, like the second-generation Roadster, Model Y SUV, and Semi truck.

But beyond these new vehicles, Tesla’s batteries could be used to help shift the markets to ditch dirty energy sources once and for all.

Related video: The gigafactory, explained.

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