Trusted Business Insights answers what are the scenarios for growth and recovery and whether there will be any lasting structural impact from the unfolding crisis for the LED Lighting market.

Trusted Business Insights presents an updated and Latest Study on LED Lighting Market 2019-2026. The report contains market predictions related to market size, revenue, production, CAGR, Consumption, gross margin, price, and other substantial factors. While emphasizing the key driving and restraining forces for this market, the report also offers a complete study of the future trends and developments of the market.The report further elaborates on the micro and macroeconomic aspects including the socio-political landscape that is anticipated to shape the demand of the LED Lighting market during the forecast period (2019-2029).It also examines the role of the leading market players involved in the industry including their corporate overview, financial summary, and SWOT analysis.

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Global LED Lighting Market Analysis Trends, Applications, Analysis, Growth, and Forecast to 2028 is a recent report generated by Trusted Business Insights. The global LED lighting market report has been segmented on the basis of product type, service, end user, application, and region.

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Global LED Lighting Market: Overview

LED stands for Light Emitting Diode, which is a semiconductor device that engage in converting electricity into light. LED lighting is an energy-efficient and rapidly-developing lighting technologies usually mounted on the ceilings in order to offer general illumination.

Global LED Lighting Market: Dynamics

Increasing adoption of LED lights globally, owing to its cost efficiency and energy-efficient nature is one of the key factor expected to drive growth of the global market. Increasing concern over reduction of non-renewable sources of power coupled with declining prices of LED products are some of the factors expected to fuel growth of the target market. In addition, continuous research and development activities in lighting technology in order to offer energy efficient and compact lighting systems is another major factor expected to propel growth of the target market. Government authorities in various countries are offering subsidies to manufacturers in order to increase the adoption of energy efficient lighting products including LED, OLED, etc. which is a factor expected to augment target market growth. Moreover, introduction of LightSavers program undertaken by The Climate Group are expected to trigger the substitution of conventional lighting solutions.

However, stringent regulations of government authorities regarding manufacturing of LED lights and high cost associated with installation of advanced lighting system are some factors may hamper growth of the global market. Moreover, high initial investment is another factor expected to challenge growth of the target market.

Global LED Lighting Market: Segment Analysis

Among the product type segments, the LED bulb segment is expected to register highest revenue share over the next 10 years.

Among the service type segments, the installation segment is expected to register significantly higher market share, owing to rising demand for energy-efficient lighting solution.

Among the end user segments, the commercial segment is expected to account for significant shares in the global market, in terms of revenue, owing to increasing commercial infrastructural development activities.

Among the application segments, the outdoor segment is projected to contribute significant revenue shares in global market.

Global LED Lighting Market: Regional Analysis

North America and Europe LED lighting markets are projected to account for majority of revenue shares in the target market over the forecast period. This is primarily attributed to, strong presence of advanced infrastructure in the various countries in the region. Moreover, increasing renovation or remodeling activities among residential and commercial buildings in order to add an aesthetic look and change lighting systems is another factor expected to propel growth of the target market.

LED lighting market in Asia Pacific is expected to fuel growth of the target market, owing to growing infrastructural development activities in emerging economies including India and China. In addition, rising demand for energy efficient lighting solution among various end users including construction, healthcare, residential, etc. is a key factor projected to support revenue growth of the target market in the region. Markets in the Middle East & Africa and Latin America are expected to register considerable growth over the forecast period.

Global LED Lighting Market Segmentation:

Segmentation by Product Type:

LED BulbsLED FixturesBare LED TubesLED Down lights

Segmentation by Service Type:

Installation ServicesConsulting ServicesMaintenance & Support

Segmentation by End-User:

CommercialResidential

Segmentation by Application:

IndoorOutdoorAutomotiveBacklighting

Quick Read Table of Contents of this Report @ Global LED Lighting Market 2020 (Includes Business Impact of COVID-19)

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LED Lighting Market Analysis Of Global Trends, Demand And Competition 2020-2028 - 3rd Watch News

The LED Damp Proof Light market research encompasses an exhaustive analysis of the market outlook, framework, and socio-economic impacts. The report covers the accurate investigation of the market size, share, product footprint, revenue, and progress rate. Driven by primary and secondary researches, the LED Damp Proof Light market study offers reliable and authentic projections regarding the technical jargon.All the players running in the global LED Damp Proof Light market are elaborated thoroughly in the LED Damp Proof Light market report on the basis of proprietary technologies, distribution channels, industrial penetration, manufacturing processes, and revenue. In addition, the report examines R&D developments, legal policies, and strategies defining the competitiveness of the LED Damp Proof Light market players.The report on the LED Damp Proof Light market provides a birds eye view of the current proceeding within the LED Damp Proof Light market. Further, the report also takes into account the impact of the novel COVID-19 pandemic on the LED Damp Proof Light market and offers a clear assessment of the projected market fluctuations during the forecast period.

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Key market playersMajor competitors identified in this market include Ledvance, Zumtobel, Philips Lighting, Adolf Schuch GmbH, Feilo Sylvania, Regiolux, Disano Illuminazione S.p.A, Dialight, Opple, etc.

Based on the Region:Asia-Pacific (China, Japan, South Korea, India and ASEAN)North America (US and Canada)Europe (Germany, France, UK and Italy)Rest of World (Latin America, Middle East & Africa)

Based on the Type:IP 65IP 66Others

Based on the Application:Garages & Underground Car ParksIndustrial and Storage FacilitiesHumid and Wet Indoor LocationsOthers

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Objectives of the LED Damp Proof Light Market Study:To define, describe, and analyze the global LED Damp Proof Light market based on oil type, product type, ship type, and regionTo forecast and analyze the LED Damp Proof Light market size (in terms of value and volume) and submarkets in 5 regions, namely, APAC, Europe, North America, Central & South America, and the Middle East & AfricaTo forecast and analyze the LED Damp Proof Light market at country-level for each regionTo strategically analyze each submarket with respect to individual growth trends and their contribution to the global LED Damp Proof Light marketTo analyze opportunities in the market for stakeholders by identifying high growth segments of the global LED Damp Proof Light marketTo identify trends and factors driving or inhibiting the growth of the market and submarketsTo analyze competitive developments, such as expansions and new product launches, in the global LED Damp Proof Light marketTo strategically profile key market players and comprehensively analyze their growth strategiesThe LED Damp Proof Light market research focuses on the market structure and various factors (positive and negative) affecting the growth of the market. The study encloses a precise evaluation of the LED Damp Proof Light market, including growth rate, current scenario, and volume inflation prospects, on the basis of DROT and Porters Five Forces analyses. In addition, the LED Damp Proof Light market study provides reliable and authentic projections regarding the technical jargon.

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After reading the LED Damp Proof Light market report, readers can:Identify the factors affecting the LED Damp Proof Light market growth drivers, restraints, opportunities and trends.Examine the Y-o-Y growth of the global LED Damp Proof Light market.Analyze trends impacting the demand prospect for the LED Damp Proof Light in various regions.Recognize different tactics leveraged by players of the global LED Damp Proof Light market.Identify the LED Damp Proof Light market impact on various industries.

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Impact of COVID-19 Outbreak on LED Damp Proof Light Volume Forecast and Value Chain Analysis 2019-2024 - Cole of Duty

Analysis of the Global Indoor Farming Technology Market

A recently published market report on the Indoor Farming Technology market highlights the pitfalls that companies might come across due to the unprecedented outbreak of COVID-19 (Coronavirus). Buyers can request comprehensive market analysis of Coronavirus and its impact on the Indoor Farming Technology market to mitigate revenue losses.

This market research report on the Indoor Farming Technology market published by Indoor Farming Technology derives current insights about the competitive landscape of the Indoor Farming Technology market. Further, the report unfolds detailed analysis of different segments of the Indoor Farming Technology market and offers a thorough understanding of the growth potential of each market segment over the assessment period (20XX-20XX).

According to the analysts at Indoor Farming Technology , the Indoor Farming Technology market is predicted to register a CAGR growth of ~XX% during the assessment and reach a value of ~US$ XX by the end of 20XX. The report analyzes the micro and macro-economic factors that are projected to influence the growth of the Indoor Farming Technology market in the coming decade.

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Key Insights Highlighted in the Report

Segmentation of the Indoor Farming Technology Market

The presented report elaborate on the Indoor Farming Technology market into different segments and ponders over the current and future business potentials of each segment. The report showcases the year-on-year growth of each segment and ponders upon the different factors that are likely to influence the growth of each market segment.

The various segments of the Indoor Farming Technology market explained in the report include:

Key market playersMajor competitors identified in this market include Philips Lighting (Netherlands), Netafim (Israel), Argus Controls Systems (Canada), EVERLIGHT Electronics (Taiwan), LumiGrow (US), etc.

Based on the Region:Asia-Pacific (China, Japan, South Korea, India and ASEAN)North America (US and Canada)Europe (Germany, France, UK and Italy)Rest of World (Latin America, Middle East & Africa)

Based on the Type:HardwareSoftware & services

Based on the Application:Fruits & vegetablesHerbs & microgreensFlowers & ornamentalsOthers

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Important doubts related to the Indoor Farming Technology market clarified in the report:

Why Choose Indoor Farming Technology

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Assessing the Fallout From the Coronavirus Pandemic Indoor Farming Technology Market Size Includes Dynamics, Products, Application, Forecast Report...

Current Trends Now: Smart Indoor Lighting Market 2020: COVID-19 Outbreak Impact Analysis

Chicago, United States: The Smart Indoor Lighting Market report [5 Years Forecast 2020-2025] focuses on the COVID19 Outbreak Impact analysis of key points influencing the growth of the market. Providing info like market competitive situation, product scope, market overview, opportunities, driving force and market risks. Profile the Top Key Players of Smart Indoor Lighting, with sales, revenue and global market share of Smart Indoor Lighting are analyzed emphatically by landscape contrast and speak to info. Upstream raw materials and instrumentation and downstream demand analysis is additionally administrated. The Smart Indoor Lighting market business development trends and selling channels square measure analyzed. From a global perspective, It also represents overall industry size by analyzing qualitative insights and historical data.

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This study covers following key players: Philips LightingAcuity Brands LightingGeneral ElectricOSRAM LichtHoneywell InternationalABB(Cooper Industries)Digital LumensLegrandLutron ElectronicsSchneider Electric

NOTE: Our team is studying Covid-19 impact analysis on various industry verticals and Country Level impact for a better analysis of markets and industries. The 2020 latest edition of this report is entitled to provide additional commentary on latest scenario, economic slowdown and COVID-19 impact on overall industry. Further it will also provide qualitative information about when industry could come back on track and what possible measures industry players are taking to deal with current situation.

Our exploration specialists acutely ascertain the significant aspects of the global Smart Indoor Lighting market report. It also provides an in-depth valuation in regards to the future advancements relying on the past data and present circumstance of Smart Indoor Lighting market situation. In this Smart Indoor Lighting report, we have investigated the principals, players in the market, geological regions, product type, and market end-client applications. The global Smart Indoor Lighting report comprises of primary and secondary data which is exemplified in the form of pie outlines, Smart Indoor Lighting tables, analytical figures, and reference diagrams. The Smart Indoor Lighting report is presented in an efficient way that involves basic dialect, basic Smart Indoor Lighting outline, agreements, and certain facts as per solace and comprehension.The Essential Content Covered in the GlobalSmart Indoor Lighting Market Report:

* Top Key Company Profiles.* Main Business and Rival Information* SWOT Analysis and PESTEL Analysis* Production, Sales, Revenue, Price and Gross Margin* Market Share and Size

Market segment by Type, the product can be split into:

Fluorescent LampsLight Emitting DiodesHigh Intensity Discharge Lamps

Market segment by Application, split into:

ResidentialCommercialIndustrial

The Smart Indoor Lighting market report provides answers to the following key questions:

-At what rate is the Smart Indoor Lighting market expected to grow in size in the forecast period?-What are the key factors influencing the global Smart Indoor Lighting market growth?-Which significant market trends are driving the growth of the global Smart Indoor Lighting market?-Which factors are the determinants of the market shares of the leading geographies across the globe?-Who are the leading participants in the industry and what are the strategies adopted by them in the global Smart Indoor Lighting market?-What are the opportunities and challenges encounters by vendors in the global Smart Indoor Lighting market?-Which trends, drivers and challenges are affecting the growth of the industry?-What is the outcome of the PESTEL analysis of the global Smart Indoor Lighting market?

Highlights the following key factors:

Business description: A detailed description of the companys operations and business divisions. Corporate strategy: Analysts summarization of the companys business strategy. SWOT Analysis: A detailed analysis of the companys strengths, weaknesses, opportunities, and threats. Company history: Progression of key events associated with the company. Major products and services: A list of major products, services, and brands of the company. Key competitors: A list of key competitors to the company. Important locations and subsidiaries: A list and contact details of key locations and subsidiaries of the company. Detailed financial ratios for the past five years: The latest financial ratios derived from the annual financial statements published by the company with 5 years history.

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About Us:Report Hive Research delivers strategic market research reports, statistical survey, and Industry analysis and forecast data on products and services, markets and companies. Our clientele ranges mix of United States Business Leaders, Government Organizations, SMEs, Individual and Start-ups, Management Consulting Firms, and Universities etc. Our library of 600,000+ market reports covers industries like Chemical, Healthcare, IT, Telecom, Semiconductor, etc. in the USA, Europe Middle East, Africa, Asia Pacific. We help in business decision-making on aspects such as market entry strategies, market sizing, market share analysis, sales and revenue, technology trends, competitive analysis, product portfolio and application analysis etc.

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Current Trends: Smart Indoor Lighting Market 2020: What are the key opportunities? - Cole of Duty

The Led Indoor Lighting market has witnessed growth from USD XX million to USD XX million from 2014 to 2019. With the CAGR of X.X%, this market is estimated to reach USD XX million in 2026.

The report mainly studies the size, recent trends and development status of the Led Indoor Lighting market, as well as investment opportunities, government policy, market dynamics (drivers, restraints, opportunities), supply chain and competitive landscape. Technological innovation and advancement will further optimize the performance of the product, making it more widely used in downstream applications. Moreover, Porters Five Forces Analysis (potential entrants, suppliers, substitutes, buyers, industry competitors) provides crucial information for knowing the Led Indoor Lighting market.

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Major Players in the global Led Indoor Lighting market include:, Hubbell Lighting, Emerson Electric, Philips, Westinghouse, DECO Lighting, RAB Lighting, HUGEWIN, GE Lighting, Toshiba, Ligman Lighting, Osram, LSI, Cree, Bravoled, Acuity Brands, MaxLite, GEMCORE, Havells Sylvania, XtraLight

On the basis of types, the Led Indoor Lighting market is primarily split into:, <60w, 60w-100w, >100w

On the basis of applications, the market covers:, Healthcare Indoor Lighting, Commercial Indoor Lighting, Industrial Indoor Lighting, Home Indoor Lighting

Brief about Led Indoor Lighting Market Report with [emailprotected] https://www.arcognizance.com/report/global-led-indoor-lighting-market-report-2019-competitive-landscape-trends-and-opportunities

Geographically, the report includes the research on production, consumption, revenue, market share and growth rate, and forecast (2014-2026) of the following regions:, United States, Europe (Germany, UK, France, Italy, Spain, Russia, Poland), China, Japan, India , Southeast Asia (Malaysia, Singapore, Philippines, Indonesia, Thailand, Vietnam), Central and South America (Brazil, Mexico, Colombia), Middle East and Africa (Saudi Arabia, United Arab Emirates, Turkey, Egypt, South Africa, Nigeria), Other Regions

Chapter 1 provides an overview of Led Indoor Lighting market, containing global revenue, global production, sales, and CAGR. The forecast and analysis of Led Indoor Lighting market by type, application, and region are also presented in this chapter.

Chapter 2 is about the market landscape and major players. It provides competitive situation and market concentration status along with the basic information of these players.

Chapter 3 provides a full-scale analysis of major players in Led Indoor Lighting industry. The basic information, as well as the profiles, applications and specifications of products market performance along with Business Overview are offered.

Chapter 4 gives a worldwide view of Led Indoor Lighting market. It includes production, market share revenue, price, and the growth rate by type.

Chapter 5 focuses on the application of Led Indoor Lighting, by analyzing the consumption and its growth rate of each application.

Chapter 6 is about production, consumption, export, and import of Led Indoor Lighting in each region.

Chapter 7 pays attention to the production, revenue, price and gross margin of Led Indoor Lighting in markets of different regions. The analysis on production, revenue, price and gross margin of the global market is covered in this part.

Chapter 8 concentrates on manufacturing analysis, including key raw material analysis, cost structure analysis and process analysis, making up a comprehensive analysis of manufacturing cost.

Chapter 9 introduces the industrial chain of Led Indoor Lighting. Industrial chain analysis, raw material sources and downstream buyers are analyzed in this chapter.

Chapter 10 provides clear insights into market dynamics.

Chapter 11 prospects the whole Led Indoor Lighting market, including the global production and revenue forecast, regional forecast. It also foresees the Led Indoor Lighting market by type and application.

Chapter 12 concludes the research findings and refines all the highlights of the study.

Chapter 13 introduces the research methodology and sources of research data for your understanding.

Years considered for this report:, Historical Years: 2014-2018, Base Year: 2019, Estimated Year: 2019, Forecast Period: 2019-2026,

Some Point of Table of Content:

Chapter One: Led Indoor Lighting Market Overview

Chapter Two: Global Led Indoor Lighting Market Landscape by Player

Chapter Three: Players Profiles

Chapter Four: Global Led Indoor Lighting Production, Revenue (Value), Price Trend by Type

Chapter Five: Global Led Indoor Lighting Market Analysis by Application

Chapter Six: Global Led Indoor Lighting Production, Consumption, Export, Import by Region (2014-2019)

Chapter Seven: Global Led Indoor Lighting Production, Revenue (Value) by Region (2014-2019)

Chapter Eight: Led Indoor Lighting Manufacturing Analysis

Chapter Nine: Industrial Chain, Sourcing Strategy and Downstream Buyers

Chapter Ten: Market Dynamics

Chapter Eleven: Global Led Indoor Lighting Market Forecast (2019-2026)

Chapter Twelve: Research Findings and Conclusion

Chapter Thirteen: Appendix continued

List of tablesList of Tables and Figures

Figure Led Indoor Lighting Product PictureTable Global Led Indoor Lighting Production and CAGR (%) Comparison by TypeTable Profile of <60wTable Profile of 60w-100wTable Profile of >100wTable Led Indoor Lighting Consumption (Sales) Comparison by Application (2014-2026)Table Profile of Healthcare Indoor LightingTable Profile of Commercial Indoor LightingTable Profile of Industrial Indoor LightingTable Profile of Home Indoor LightingFigure Global Led Indoor Lighting Market Size (Value) and CAGR (%) (2014-2026)Figure United States Led Indoor Lighting Revenue and Growth Rate (2014-2026)Figure Europe Led Indoor Lighting Revenue and Growth Rate (2014-2026)Figure Germany Led Indoor Lighting Revenue and Growth Rate (2014-2026)Figure UK Led Indoor Lighting Revenue and Growth Rate (2014-2026)Figure France Led Indoor Lighting Revenue and Growth Rate (2014-2026)Figure Italy Led Indoor Lighting Revenue and Growth Rate (2014-2026)Figure Spain Led Indoor Lighting Revenue and Growth Rate (2014-2026)Figure Russia Led Indoor Lighting Revenue and Growth Rate (2014-2026)Figure Poland Led Indoor Lighting Revenue and Growth Rate (2014-2026)Figure China Led Indoor Lighting Revenue and Growth Rate (2014-2026)Figure Japan Led Indoor Lighting Revenue and Growth Rate (2014-2026)Figure India Led Indoor Lighting Revenue and Growth Rate (2014-2026)Figure Southeast Asia Led Indoor Lighting Revenue and Growth Rate (2014-2026)Figure Malaysia Led Indoor Lighting Revenue and Growth Rate (2014-2026)Figure Singapore Led Indoor Lighting Revenue and Growth Rate (2014-2026)Figure Philippines Led Indoor Lighting Revenue and Growth Rate (2014-2026)Figure Indonesia Led Indoor Lighting Revenue and Growth Rate (2014-2026)Figure Thailand Led Indoor Lighting Revenue and Growth Rate (2014-2026)Figure Vietnam Led Indoor Lighting Revenue and Growth Rate (2014-2026)Figure Central and South America Led Indoor Lighting Revenue and Growth Rate (2014-2026)Figure Brazil Led Indoor Lighting Revenue and Growth Rate (2014-2026)Figure Mexico Led Indoor Lighting Revenue and Growth Rate (2014-2026)Figure Colombia Led Indoor Lighting Revenue and Growth Rate (2014-2026)Figure Middle East and Africa Led Indoor Lighting Revenue and Growth Rate (2014-2026)Figure Saudi Arabia Led Indoor Lighting Revenue and Growth Rate (2014-2026)Figure United Arab Emirates Led Indoor Lighting Revenue and Growth Rate (2014-2026)Figure Turkey Led Indoor Lighting Revenue and Growth Rate (2014-2026)Figure Egypt Led Indoor Lighting Revenue and Growth Rate (2014-2026)Figure South Africa Led Indoor Lighting Revenue and Growth Rate (2014-2026)Figure Nigeria Led Indoor Lighting Revenue and Growth Rate (2014-2026)Figure Global Led Indoor Lighting Production Status and Outlook (2014-2026)Table Global Led Indoor Lighting Production by Player (2014-2019)Table Global Led Indoor Lighting Production Share by Player (2014-2019)Figure Global Led Indoor Lighting Production Share by Player in 2018Table Led Indoor Lighting Revenue by Player (2014-2019)Table Led Indoor Lighting Revenue Market Share by Player (2014-2019)Table Led Indoor Lighting Price by Player (2014-2019)Table Led Indoor Lighting Manufacturing Base Distribution and Sales Area by PlayerTable Led Indoor Lighting Product Type by PlayerTable Mergers & Acquisitions, Expansion PlansTable Hubbell Lighting ProfileTable Hubbell Lighting Led Indoor Lighting Production, Revenue, Price and Gross Margin (2014-2019)Table Emerson Electric ProfileTable Emerson Electric Led Indoor Lighting Production, Revenue, Price and Gross Margin (2014-2019)Table Philips ProfileTable Philips Led Indoor Lighting Production, Revenue, Price and Gross Margin (2014-2019)Table Westinghouse ProfileTable Westinghouse Led Indoor Lighting Production, Revenue, Price and Gross Margin (2014-2019)Table DECO Lighting ProfileTable DECO Lighting Led Indoor Lighting Production, Revenue, Price and Gross Margin (2014-2019)Table RAB Lighting ProfileTable RAB Lighting Led Indoor Lighting Production, Revenue, Price and Gross Margin (2014-2019)Table HUGEWIN ProfileTable HUGEWIN Led Indoor Lighting Production, Revenue, Price and Gross Margin (2014-2019)Table GE Lighting ProfileTable GE Lighting Led Indoor Lighting Production, Revenue, Price and Gross Margin (2014-2019)Table Toshiba ProfileTable Toshiba Led Indoor Lighting Production, Revenue, Price and Gross Margin (2014-2019)Table Ligman Lighting ProfileTable Ligman Lighting Led Indoor Lighting Production, Revenue, Price and Gross Margin (2014-2019)Table Osram ProfileTable Osram Led Indoor Lighting Production, Revenue, Price and Gross Margin (2014-2019)Table LSI ProfileTable LSI Led Indoor Lighting Production, Revenue, Price and Gross Margin (2014-2019)Table Cree ProfileTable Cree Led Indoor Lighting Production, Revenue, Price and Gross Margin (2014-2019)Table Bravoled ProfileTable Bravoled Led Indoor Lighting Production, Revenue, Price and Gross Margin (2014-2019)Table Acuity Brands ProfileTable Acuity Brands Led Indoor Lighting Production, Revenue, Price and Gross Margin (2014-2019)Table MaxLite ProfileTable MaxLite Led Indoor Lighting Production, Revenue, Price and Gross Margin (2014-2019)Table GEMCORE ProfileTable GEMCORE Led Indoor Lighting Production, Revenue, Price and Gross Margin (2014-2019)Table Havells Sylvania ProfileTable Havells Sylvania Led Indoor Lighting Production, Revenue, Price and Gross Margin (2014-2019)Table XtraLight ProfileTable XtraLight Led Indoor Lighting Production, Revenue, Price and Gross Margin (2014-2019)Table Global Led Indoor Lighting Production by Type (2014-2019)Table Global Led Indoor Lighting Production Market Share by Type (2014-2019)Figure Global Led Indoor Lighting Production Market Share by Type in 2018Table Global Led Indoor Lighting Revenue by Type (2014-2019)Table Global Led Indoor Lighting Revenue Market Share by Type (2014-2019)Figure Global Led Indoor Lighting Revenue Market Share by Type in 2018Table Led Indoor Lighting Price by Type (2014-2019)Figure Global Led Indoor Lighting Production Growth Rate of <60w (2014-2019)Figure Global Led Indoor Lighting Production Growth Rate of 60w-100w (2014-2019)Figure Global Led Indoor Lighting Production Growth Rate of >100w (2014-2019)Table Global Led Indoor Lighting Consumption by Application (2014-2019)Table Global Led Indoor Lighting Consumption Market Share by Application (2014-2019)Table Global Led Indoor Lighting Consumption of Healthcare Indoor Lighting (2014-2019)Table Global Led Indoor Lighting Consumption of Commercial Indoor Lighting (2014-2019)Table Global Led Indoor Lighting Consumption of Industrial Indoor Lighting (2014-2019)Table Global Led Indoor Lighting Consumption of Home Indoor Lighting (2014-2019)Table Global Led Indoor Lighting Consumption by Region (2014-2019)Table Global Led Indoor Lighting Consumption Market Share by Region (2014-2019)Table United States Led Indoor Lighting Production, Consumption, Export, Import (2014-2019)Table Europe Led Indoor Lighting Production, Consumption, Export, Import (2014-2019)Table China Led Indoor Lighting Production, Consumption, Export, Import (2014-2019)Table Japan Led Indoor Lighting Production, Consumption, Export, Import (2014-2019)Table India Led Indoor Lighting Production, Consumption, Export, Import (2014-2019)Table Southeast Asia Led Indoor Lighting Production, Consumption, Export, Import (2014-2019)Table Central and South America Led Indoor Lighting Production, Consumption, Export, Import (2014-2019)continued

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NOTE: Our report does take into account the impact of coronavirus pandemic and dedicates qualitative as well as quantitative sections of information within the report that emphasizes the impact of COVID-19.

As this pandemic is ongoing and leading to dynamic shifts in stocks and businesses worldwide, we take into account the current condition and forecast the market data taking into consideration the micro and macroeconomic factors that will be affected by the pandemic.

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Global Led Indoor Lighting Market Size, Share, Trends, Growth and Outlook with Company Analysis and Forecast to 2026 - Cole of Duty

The market research report is a brilliant, complete, and much-needed resource for companies, stakeholders, and investors interested in the global Indoor Luminaires market. It informs readers about key trends and opportunities in the global Indoor Luminaires market along with critical market dynamics expected to impact the global market growth. It offers a range of market analysis studies, including production and consumption, sales, industry value chain, competitive landscape, regional growth, and price. On the whole, it comes out as an intelligent resource that companies can use to gain a competitive advantage in the global Indoor Luminaires market.

Key companies operating in the global Indoor Luminaires market include GE Lighting, Philips Lighting, Osram, EatonCooper, Toshiba, Panasonic, Acuity Brands, Thorn Lighting, etc.

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Segmental Analysis

Both developed and emerging regions are deeply studied by the authors of the report. The regional analysis section of the report offers a comprehensive analysis of the global Indoor Luminaires market on the basis of region. Each region is exhaustively researched about so that players can use the analysis to tap into unexplored markets and plan powerful strategies to gain a foothold in lucrative markets.

Global Indoor Luminaires Market Segment By Type:

,Incandescent Lamp,LED Lamp,Halogen Lamp,Fluorescent Lamp,Xenon Lamp,Others

Global Indoor Luminaires Market Segment By Application:

,Household,Commercial,Industrial

Competitive Landscape

Competitor analysis is one of the best sections of the report that compares the progress of leading players based on crucial parameters, including market share, new developments, global reach, local competition, price, and production. From the nature of competition to future changes in the vendor landscape, the report provides in-depth analysis of the competition in the global Indoor Luminaires market.

Key companies operating in the global Indoor Luminaires market include GE Lighting, Philips Lighting, Osram, EatonCooper, Toshiba, Panasonic, Acuity Brands, Thorn Lighting, etc.

Key questions answered in the report:

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TOC

1.1 Research Scope1.2 Market Segmentation1.3 Research Objectives1.4 Research Methodology1.4.1 Research Process1.4.2 Data Triangulation1.4.3 Research Approach1.4.4 Base Year1.5 Coronavirus Disease 2019 (Covid-19) Impact Will Have a Severe Impact on Global Growth1.5.1 Covid-19 Impact: Global GDP Growth, 2019, 2020 and 2021 Projections1.5.2 Covid-19 Impact: Commodity Prices Indices1.5.3 Covid-19 Impact: Global Major Government Policy1.6 The Covid-19 Impact on Indoor Luminaires Industry1.7 COVID-19 Impact: Indoor Luminaires Market Trends 2 Global Indoor Luminaires Quarterly Market Size Analysis2.1 Indoor Luminaires Business Impact Assessment COVID-192.1.1 Global Indoor Luminaires Market Size, Pre-COVID-19 and Post- COVID-19 Comparison, 2015-20262.1.2 Global Indoor Luminaires Price, Pre-COVID-19 and Post- COVID-19 Comparison, 2015-20262.2 Global Indoor Luminaires Quarterly Market Size 2020-20212.3 COVID-19-Driven Market Dynamics and Factor Analysis2.3.1 Drivers2.3.2 Restraints2.3.3 Opportunities2.3.4 Challenges 3 Quarterly Competitive Assessment, 20203.1 Global Indoor Luminaires Quarterly Market Size by Manufacturers, 2019 VS 20203.2 Global Indoor Luminaires Factory Price by Manufacturers3.3 Location of Key Manufacturers Indoor Luminaires Manufacturing Factories and Area Served3.4 Date of Key Manufacturers Enter into Indoor Luminaires Market3.5 Key Manufacturers Indoor Luminaires Product Offered3.6 Mergers & Acquisitions, Expansion Plans 4 Impact of Covid-19 on Indoor Luminaires Segments, By Type4.1 Introduction1.4.1 Incandescent Lamp1.4.2 LED Lamp1.4.3 Halogen Lamp1.4.4 Fluorescent Lamp1.4.5 Xenon Lamp1.4.6 Others4.2 By Type, Global Indoor Luminaires Market Size, 2019-20214.2.1 By Type, Global Indoor Luminaires Market Size by Type, 2020-20214.2.2 By Type, Global Indoor Luminaires Price, 2020-2021 5 Impact of Covid-19 on Indoor Luminaires Segments, By Application5.1 Overview5.5.1 Household5.5.2 Commercial5.5.3 Industrial5.2 By Application, Global Indoor Luminaires Market Size, 2019-20215.2.1 By Application, Global Indoor Luminaires Market Size by Application, 2019-20215.2.2 By Application, Global Indoor Luminaires Price, 2020-2021 6 Geographic Analysis6.1 Introduction6.2 North America6.2.1 Macroeconomic Indicators of US6.2.2 US6.2.3 Canada6.3 Europe6.3.1 Macroeconomic Indicators of Europe6.3.2 Germany6.3.3 France6.3.4 UK6.3.5 Italy6.4 Asia-Pacific6.4.1 Macroeconomic Indicators of Asia-Pacific6.4.2 China6.4.3 Japan6.4.4 South Korea6.4.5 India6.4.6 ASEAN6.5 Rest of World6.5.1 Latin America6.5.2 Middle East and Africa 7 Company Profiles7.1 GE Lighting7.1.1 GE Lighting Business Overview7.1.2 GE Lighting Indoor Luminaires Quarterly Production and Revenue, 20207.1.3 GE Lighting Indoor Luminaires Product Introduction7.1.4 GE Lighting Response to COVID-19 and Related Developments7.2 Philips Lighting7.2.1 Philips Lighting Business Overview7.2.2 Philips Lighting Indoor Luminaires Quarterly Production and Revenue, 20207.2.3 Philips Lighting Indoor Luminaires Product Introduction7.2.4 Philips Lighting Response to COVID-19 and Related Developments7.3 Osram7.3.1 Osram Business Overview7.3.2 Osram Indoor Luminaires Quarterly Production and Revenue, 20207.3.3 Osram Indoor Luminaires Product Introduction7.3.4 Osram Response to COVID-19 and Related Developments7.4 EatonCooper7.4.1 EatonCooper Business Overview7.4.2 EatonCooper Indoor Luminaires Quarterly Production and Revenue, 20207.4.3 EatonCooper Indoor Luminaires Product Introduction7.4.4 EatonCooper Response to COVID-19 and Related Developments7.5 Toshiba7.5.1 Toshiba Business Overview7.5.2 Toshiba Indoor Luminaires Quarterly Production and Revenue, 20207.5.3 Toshiba Indoor Luminaires Product Introduction7.5.4 Toshiba Response to COVID-19 and Related Developments7.6 Panasonic7.6.1 Panasonic Business Overview7.6.2 Panasonic Indoor Luminaires Quarterly Production and Revenue, 20207.6.3 Panasonic Indoor Luminaires Product Introduction7.6.4 Panasonic Response to COVID-19 and Related Developments7.7 Acuity Brands7.7.1 Acuity Brands Business Overview7.7.2 Acuity Brands Indoor Luminaires Quarterly Production and Revenue, 20207.7.3 Acuity Brands Indoor Luminaires Product Introduction7.7.4 Acuity Brands Response to COVID-19 and Related Developments7.8 Thorn Lighting7.8.1 Thorn Lighting Business Overview7.8.2 Thorn Lighting Indoor Luminaires Quarterly Production and Revenue, 20207.8.3 Thorn Lighting Indoor Luminaires Product Introduction7.8.4 Thorn Lighting Response to COVID-19 and Related Developments 8 Supply Chain and Sales Channels Analysis8.1 Indoor Luminaires Supply Chain Analysis8.1.1 Indoor Luminaires Supply Chain Analysis8.1.2 Covid-19 Impact on Indoor Luminaires Supply Chain8.2 Distribution Channels Analysis8.2.1 Indoor Luminaires Distribution Channels8.2.2 Covid-19 Impact on Indoor Luminaires Distribution Channels8.2.3 Indoor Luminaires Distributors8.3 Indoor Luminaires Customers 9 Key Findings 10 Appendix10.1 About Us10.2 Disclaimer

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QYResearch always pursuits high product quality with the belief that quality is the soul of business. Through years of effort and supports from huge number of customer supports, QYResearch consulting group has accumulated creative design methods on many high-quality markets investigation and research team with rich experience. Today, QYResearch has become the brand of quality assurance in consulting industry.

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Indoor Luminaires Market Study for 2020 to 2026 Providing Information on Key Players, Growth Drivers and Industry Challenges - Cole of Duty

UV-C technology is nothing new -- it's been used before in consumer devices such as the PhoneSoap, pictured -- but safety concerns are on the rise as companies claim their UV-C light devices kill the coronavirus.

With man-made hand sanitizer in short supply, many people are turning to what's been called "nature's hand sanitizer," or ultraviolet light. UV light is the latest popular tool in the ongoing race to find ways to prevent oneself from catching SARS-CoV-2, the virus that causes COVID-19.

Disinfection by way of UV light is nothing new: The International Ultraviolet Association says it's been a useful technology for over 40 years, contributing to clean water and clean air. Many consumer devices also use UV light to disinfect things, such as self-cleaning UV light water bottles and UV-emitting cases that clean your dirty phone.

When it comes to the coronavirus, though, things aren't so clear-cut. There are risks that come with using UV light devices, especially when using them on your skin. Before ordering the first UV light sanitizer you see, read up on the current evidence about UV light disinfectants and the potential risks of using them on yourself.

A quick primer on UV light: UV light comes primarily from the sun, but there are also man-made sources of UV light, including tanning beds and the currently buzzed-about UV disinfection lamps.

There are three classes of UV light: UV-A, UV-B and UV-C.

UV-A and UV-B light cause sunburns and premature skin aging, and exposure to both is associated with the development of skin cancer. UV-C light, which has the most energy of all three types, is the most harmful, but it fortunately doesn't reach the Earth's surface because our atmosphere absorbs it.

There's man-made UV-C light, too: It's what's in the UV light sanitizers that companies claim kill the coronavirus. According to the National Academy of Sciences, it's probable that this is true, because UV light has been used to disinfect surfaces and water for a long time, and it's generally successful.

It works because UV-C light is strong enough to destroy the genetic material -- either DNA or RNA -- of viruses and bacteria. There's no evidence right now that typical sun exposure can kill the coronavirus, so no, going outside on asunny daywon't reduce your risk of catching it.

Based on the available scientific evidence that UV light can destroy various viruses, it's probably true that UV light can kill SARS-CoV-2 -- but keep in mind that no published, peer-reviewed studies to date have looked specifically at the effect of UV light on the virus that causes COVID-19.

The National Academies of Sciences, Engineering and Medicine reported that ultraviolet light probably can kill the coronavirus. "UV light has been shown to destroy other coronaviruses, so it will probably work on the novel coronavirus," the website reads. This includes the deadly Middle Eastern respiratory syndrome coronavirus, aka MERS-CoVand severe acute respiratory syndrome-related coronavirus, or SARS.

But there's one huge caveat: "UV light damages human skin, so it should only be used on objects or surfaces," the NASEM continues.

This means you should not use UV light as a hand sanitizer. Stick to washing your hands with soap and water (following proper hand-washing guidelines), or using an alcohol-based hand sanitizer when soap and water aren't available.

The WHO echoes this, reporting on its coronavirus myth-busters webpage that people should not use UV lamps to disinfect their hands or other areas of skin, as UV radiation "can cause skin irritation and damage your eyes."

Dr. Tyler Hollmig, director of dermatological surgery at University of Texas Dell Medical School in Austin

Though scientists are working on ways to make these powerful disinfecting products safe for people to use, current devices are not safe to use on your body. This is partly because many (if not most) of these products are not FDA-approved or approved by any governing health agency, for that matter.

This means what you see may not be what you get -- an extremely important consideration, because although very low-dose, far-range UV-C light may not harm humans or animals, using too powerful a dose too close to your skin can indeed be harmful.

These devices "tend to come in many different shapes, sizes and strengths, and thus their antimicrobial ability may be variable," says Dr. Tyler Hollmig, director of dermatological surgery at University of Texas Dell Medical School in Austin. Consequences of using UV-C light on your body can include severe sunburn-like burns and retinal damage.

Plus, Dr. Hollmig continues, as UV light devices "are often not cheap -- especially relative to more standard disinfectants that we know work -- these may not be the most efficacious way to clean. It is also worth at least just reinforcing the fact that no UV light device should be a substitute for hand washing, mask-wearingand distancing."

UV light can damage your skin, so you shouldn't use UV light sanitizers on your body.

Dr. Hollmig helps break down UV light as it relates to skin health. UV light is classified into types based on wavelength, he says, with UV-A light (the longest wavelength) being most associated with skin aging and also with certain skin cancers, and UV-B light (middle wavelength) being associated with sunburn and most skin cancers.

"UV-C light has the shortest spectrum of wavelengths, but is probably the most toxic," Dr. Hollmig says. "Fortunately, the atmosphere filters out UV-C, so our skin and eyes are typically not exposed to it."

UV-C light is what's used by sanitizers to kill or inactivate microorganisms by destroying and disrupting their nucleic acids, Dr. Hollmig explains, so if the device is properly tested and properly used, it works to kill pathogens -- but something that powerful also has the potential to harm skin. Some potential problems? It can cause burns and is a known carcinogen (as is all UV light), Dr. Hollmig says.

All types of UV light, "including those reaching the Earth's surface from the sun and those emitted by tanning beds, have not been shown to be protective against the novel coronavirus and can certainly harm the skin," Dr. Hollmig says. "Additionally, since UV sanitizers employ UV-C light, which can be dangerous, care should be taken to avoid exposure to the skin and eyes. These devices are not designed to be used to disinfect the skin and can be dangerous if used improperly."

Other consumer devices that are intended to disinfect or purify a surface or substance like thisPhoneSoap caseshould be safe to use if you follow the instructions carefully. Self-cleaning water bottles that use UV-C rays to kill germs likeLarqshould also be safe when used properly, because they typically only work when the cap is screwed on tight, so no UV-C light can leak out.

Washing your hands with soap and water for at least 20 seconds is still the gold standard for disinfecting skin, and there's no risk of giving yourself a severe sunburn-like reaction.

Consumer devices aren't the only place to find UV light sanitization. Some brick-and-mortar businesses are installing UV light fixtures in their facilities in an attempt to completely disinfect the building and mitigate the risk of contracting COVID-19 through air or surfaces.

Again, because UV light is the primary germ-killer in the natural environment, it makes sense to take this approach. This practice, called "ultraviolet germicidal irradiation," has long been used in hospitals where pathogens abound.

New York-based Magnolia Bakery is one such business, claiming to be the first business in the city to install human-safe UV light fixtures, including a portal through which all customers walk in an attempt to destroy any pathogens that may be living on the skin. In a press release, Magnolia Bakery says the dose is low enough to avoid health complications such as burns or eye irritation.

The Healthe Cleanse Portal that Magnolia Bakery has installed in its New York locations.

While the effectiveness of environmental UV sterilization on surfaces such as floors has been confirmed, however, further research is needed about the safety of indoor UV light fixtures, as well as its efficacy at sterilizing clothes and human skin.

Plus, the Centers for Disease Control and Prevention sayUV light "germicidal effectiveness and use is influenced by organic matter; wavelength; type of suspension; temperature; type of microorganism; and UV intensity." To effectively kill viruses, UV-C light must be emitted in a range of 200 to 280 nanometers, which has potential for harm.

That's a lot of stuff to consider, and something that manufacturers who are trying to quickly create UV lights may inadvertently (or purposely) ignore. It's happened before: In the past, the Federal Trade Commission called out manufacturers for making false claims about what their light-based products could do.

The International Ultraviolet Association concurs with the CDC, reporting that inactivation of viruses with UV light has been "demonstrated under controlled conditions in the laboratory," and that "the effectiveness of UV light in practice depends on factors such the exposure time and the ability of the UV light to reach the viruses in water, air, and in the folds and crevices of materials and surfaces."

In sum: Don't use any UV light devices directly on your skin. Be careful about using UV light devices on in-home surfaces. Do your research before going to establishments that have installed UV light fixtures. And definitely do not try to get any form of UV light (or any disinfectant, for that matter) inside of your body.

The information contained in this article is for educational and informational purposes only and is not intended as health or medical advice. Always consult a physician or other qualified health provider regarding any questions you may have about a medical condition or health objectives.

Continue reading here:
Using UV light to kill coronavirus: The benefits and risks - CNET

By Marc J. Rauch Author of THE ETHANOL PAPERS Exec. Vice President/Co-Publisher THE AUTO CHANNEL

Hi Jennifer -

Regarding the article you wrote for Popular Science magazine in October 2018, " Ethanol is renewable, but that doesn't mean it's good for us," I'm confused as to why you chose to do so. If you did it because you were assigned to it, then you should have done some real research into the issues. If you did it because you felt you had some valuable information to share, then you should have made certain that you had some valuable information to share. If you did it because you were offered some money by an oil industry entity, then you didn't do yourself any favor since it may ultimately cost you more in reputation.

The reason I'm contacting you today, in 2020, is because yesterday I received a message from a reader who disagrees with my advocacy of ethanol based upon your article. In my reply to this reader, I said that I could appreciate why he would cite your article, after all, it's in Popular Science magazine...a publication that many of us grew up with thinking that they know what they're talking about.

Unfortunately, this is another sad case of bursting a perception bubble, like finding out that the New York Times isn't fit to wipe your... um, to wrap fish in. I rate the level of information in your article to be somewhere around junior high school (now known as middle school).

Your main complaint with ethanol fuel is the issue of summertime smog and the claim that E10 somehow causes more low-level ozone to form than E0 (gasoline with no ethanol blended in). We know positively that E0 causes smog (proven by the decades of terrible smog in cities like Los Angeles and New York in the years preceding the use of E10). Moreover, we know that gasoline causes many other safety and health problems due to carbon monoxide, benzene, and the other junk added to the formula.

Ethanol burns so clean that people could be in a closed room burning ethanol (without any extraneous type of equipment to clean the fumes' emissions) and survive the experience quite handily. As I'm sure you know, ethanol is used safely for indoor lighting, heating, and cooking.

Therefore, the question is: What makes E10 hazardous (that it can create low level ozone smog)? There is only one answer: The cause is the 90% gasoline and aromatics that are contained in the E10 blend. The burning of all petroleum oil fuels produce nitrogen dioxide (NO2). This includes natural gas, which is a primary gas used for cooking and heating in the U.S. and in some other countries. (EPA's Basic Information about NO2)

"The Asthma Handbook" written by Jenny Lewis with The National Asthma Campaign (published by Vermilion Press 1995, Random House 2012), states this about nitrogen dioxide:

Moreover, if E10 was discontinued, in order for oil companies to produce a fuel to power the newest internal combustion engine vehicles (which require greater octane), they will have to add more oxygenates (benzene, toluene, xylene, etc.) to the finished gasoline. This would increase - not decrease - the amount of poison emissions in the air. This would not be beneficial to anyone.

Is it possible that the combination of clean burning ethanol with gasoline and aromatics in an E10 blend can produce more NO2 than just gasoline and aromatics (E0)? I don't see how, but for the moment let's say it does. In that case, the solution to the problem is to skip E10 altogether and go straight to E15 and higher blends. Studies show that E15 causes less ozone than E10, and the ozone continues to decrease as the ethanol level increases to E85 and beyond (proof that the problem is caused by gasoline and aromatics). And, we know from tests conducted by the EPA and U.S. national labs, as well as decades of ethanol-gasoline blend use in Brazil and Europe, that E15 and higher blends have no negative effects on internal combustion engines (despite irresponsible claims that ethanol causes greater damage1 to ICE parts and components than gasoline and aromatics).

The following are some links to studies that relate to higher ethanol-gasoline levels reducing E10 ozone:

Jennifer, you go on to write that ethanol contains only two-thirds of the energy content of gasoline. While this is true from a statistical perspective, the energy content comparison of the two fuels is entirely irrelevant. I provide all the reasons (and proof) why this is irrelevant in the these two reports:

You wrote "While all cars can run on E10, only specially designed vehicles and passenger cars that are model year 2001 or newer can use E15." This is untrue. Every internal combustion engine vehicle that can run on E10 can also safely, efficiently, and economically run on E15 and higher ethanol-gasoline blends. This is proven by Brazil's mandated use of E27 on ALL vehicles (regardless of model year), and by the six-plus decades of use of ethanol-gasoline blends in Great Britain and other European countries. SEE:

You may be confusing the issue of "warranty" with "ability," and therefore you may think that pre-2001 vehicles can't use E15 from a technical or mechanical perspective. If so, forget about it. Automobiles and boats that are only warrantied for E10 in America are warrantied for E27 in Brazil. Manufacturers typically only warranty their products for no more than is legally necessary in any given country. Since the fuel mandate in Brazil is a minimum E27, they warranty the vehicles/engines for E27. In the U.S., they can get away with E10, so they mostly draw the line at E10.

You then wrote, "Although ethanol was used to power the Model T Ford at the turn of the last century, gasoline soon replaced ethanol as the fuel of choice. However, after the additive used to improve octane ratings in gasoline was found to contaminate the drinking water supply, ethanol emerged as a cheap replacement to increase octane ratings, which is important for controlling combustion speeds. When blended, ethanol helps prevent the gasoline and air in the cylinders from burning too quickly and damaging the engine."

This is a horrible mish-mash of information; perhaps the single dumbest paragraph I've ever read about the engine fuels issue. The Ford Model T was designed to run on multiple fuels (I published a definitive report of this subject), and it is true that the first internal combustion engines were powered by alcohol fuels. However, the primary internal combustion engine fuel from the late 1800's until today was gasoline, not ethanol - so gasoline never "replaced ethanol as the fuel of choice." The reasons for all this are set forth in these two reports:

The additive added to gasoline in the 1920's to mitigate engine knock in high compression engines was tetraethyl lead (TEL). TEL may indeed contaminate water, but then it is a terrible poison so it contaminates everything. But the bigger problems caused by TEL was as an airborne poison that then falls to the ground and remains for long periods of time until it is disturbed and again circulates into the air. On top of TEL's poisonous characteristics, in order to mitigate the horrendous corrosiveness of TEL, ethylene bromide was added to the mix. Ethylene bromide is another poison. So if you're going to write about fuel additives that are poisonous, this is where you should have concentrated. Regarding water contamination, you should be referring to MTBE, but this wasn't used until after TEL was finally banned from use in most fuels (mid 1990's). Ethanol should have been the original ICE fuel, or at least the additive added to gasoline to stop engine knock 100 years ago, and then the exclusive additive once TEL was banned. Instead, the oil industry convinced governing politicians to let them use MTBE. The "convincing" was by way of bribing the politicians with campaign donations and other inducements. Ethanol finally emerged as the oxygenate solution because it is the safest, cleanest, most powerful, healthiest, and least expensive option. Ethanol doesn't help engines by slowing down the speed of gasoline's burn rate, it helps because it burns clean with no carbon debris and it helps to remove the debris that is caused by gasoline and aromatics.

You wrote, "In 2007, the US produced about 8.4 billion gallons of ethanol. Since then, production has almost doubled to 15.7 billion gallons in the 2016-2017 year, according to Department of Agriculture data." Yes, there has been a remarkable increase, but unfortunately you turn this wonderful achievement into a negative by claiming that the increase was due to excessively bad use of land, water, and fertilizer. In fact, the increase was due to innovations in agriculture that have provided far better results with less land, less water, and less fertilizer.

Lastly, you have the absolute effrontery to end on the food vs. fuel issue with the closing sentence: "...corn producers might be better off using the land to grow foodnot fuel." The overwhelming majority of corn grown to make ethanol is grown specifically for this purpose. However all of the corn used to make ethanol can also be used to feed animals...the animals that we eat. Only the starch of the corn is used for ethanol, the protein remnants are used for dry distillers grains (ddgs) and fed to cows and pigs. In case you haven't noticed, there is no shortage of corn for humans to eat: Corn on the cob, canned corn, corn tortillas, corn chips, and popcorn are as plentiful as ever.

You should be ashamed at yourself for writing that article for Popular Science, and Popular Science magazine should have been ashamed to publish it.

In any event, I hope you have a great memorial Day Weekend.

1 Regarding engine damage, READ:

Every Spark-Ignited Internal Combustion Engine Ever Produced Has Been Damaged By Gasoline

Why Do Small Engines Suffer From Ethanol Problems?

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Just Because It's in Popular Science That Doesn't Mean It's True - The Auto Channel

As the world emerges from a pandemic that has kept about one in five people in their homes for weeks, it's little surprise that the idea of indoor farming is gaining traction. After all, we've had a lot of time to think about what we can do indoors and maybe even ponder what we may have done outdoors that contributed to this mess.

You wouldn't think farming, one of humanity's oldest and most crucial endeavors, would be on that list. But as the number of mouths that need to be fed has grown, so too has the need for arable land. To meet that demand, industrial farming, with its reliance on large-scale, intensive production of crops and chemical fertilizers, has dramatically transformed much of the Earth's surface. Along the way, it has erased vital wildlife habitats, addled our atmosphere with greenhouse gases and undermined the health of communities living near those lands.

Indoor farming, on the other hand, isn't as land intensive. In fact, new technologies and advancements in hydroponics are making it possible to grow crops without pesticides, soil or even natural light. And since indoor crops can be stacked vertically, there's no need for vast tracts of land. Imagine farms as downtown office towers, offering floor after floor of fresh produce.

A recent study from the World Wildlife Fund confirms that indoor farming can save land and water. But it also identified a few hurdles. In the absence of sunlight, indoor operations have to rely on powerful artificial lights that use a lot of energy and produce so much heat that some indoor farms have to rely on air conditioning year-round. Ramping up the scale of those farms may only shift the burden from land to energy use although, as the study notes, we can expect technology to improve energy efficiency.

In fact, the WWF puts so much stock in its potential, it's helping the city of St. Louis transform its network of abandoned caves into indoor farms.

At first blush, it may seem like an unlikely partnership. What does an organization dedicated to wilderness preservation have to do with the development of farms? But part of the WWF's mandate is to find ways to reduce the environmental imprint of growing food, especially since vital habitats like forests are often cleared to make space for farmland.

"We're looking for new business models, new strategies and partnerships, and different ways of approaching things that are financially profitable as well as environmentally sustainable," Julia Kurnik, the WWF's director of innovation startups, tells Fast Company. "Our goal as an institute is to find things that can happen quickly and at scale, so that's why we're interested in making sure they can really take off and live beyond our investment."

Advances in hydroponics and technology have made it possible to grow more of our food indoors. (Photo: Yein Jeon/Shutterstock)

But will indoor crops whether housed in sky-spanning towers or intricate caves ever fully replace their outdoor counterparts as breadbasket to the world?

Probably not. Even vertical farms stacked as high as skyscrapers will eventually run into the same space constraints unless, of course, we find a way to stack them to the moon. And we're just talking about a perfect vegetarian world here. No one is thinking about confining animals to caves and towers.

Besides, we're all relatively new to the trade. After all, humans don't have a lot of experience growing their food indoors like they do with traditional farming.

As investment banker Erik Kobayashi-Solomon writes in Forbes, "Humans have 12,000 years of experience growing food, but only a generation or so worth of experience growing crops indoors. We are still progressing up the technology learning curve, to the extent that there is a lack of good data about basic questions comparing crop yields for plants grown outdoors in soil, inside a greenhouse, and indoors using hydroponics, for instance."

But indoor operations may be able to ease at least some of the pressure industrial farming puts on our sorely overtaxed Earth.

The best part about an indoor farming revolution may be that it's already begun with individuals. The lockdown has seen a massive surge in the grow-your-own food movement, as people look not only for something to do with their time but also reduce their reliance on grocery stores.

(A shame we still haven't found a way to grow our own toilet paper.)

In the U.S., as Mashable reports, garden centers and seed delivery services have seen sales grow 10-fold during the pandemic, with Walmart selling out of seeds completely.

There's much breathless enthusiasm, and understandable optimism, to the indoor movement as people look to do things a little differently in the post-pandemic era.

"Thanks to giant leaps forward in the science of hydroponics and LED lighting, even people in windowless, gardenless apartments can participate in the revolution," writes Chris Taylor in Mashable. "With a number of high-tech consumer products on the way, the process can be automated for those of us without green thumbs."

And some farmers, like Benjamin Widmar, didn't need a pandemic to be the change he wanted to see. He's trying to grow enough tomatoes, onions, chillies and microgreens to meet an entire town's needs. All from his indoor farm in Norway's Svalbard archipelago, about 650 miles south of the North Pole.

"We're on a mission to make this town very sustainable," he tells the Thomson Reuters Foundation. "Because if we can do it here, then what's everybody else's excuse?"

Take a tour of Widmar's operation in the video below:

Why the indoor farming movement is taking off

Indoor farming still has a few hurdles, but it could reshape the entire industry and ease the damage caused by traditional farming.

Go here to see the original:
Why the indoor farming movement is taking off - Mother Nature Network

Suaad Al Suwaidi believes that photography is an important outlet for creativity.

Eid has always been particularly inspiring to the Emirati photographer, who has spent previous years capturing the spirit of the occasion. However, with people practising social distancing and celebrating the holiday at home this year, both Ramadan and Eid have been rather different.

However, the photographer has taken it in her stride, seeing it as a new challenge to capture the spirit of the occasion while staying safe at home.

[Social distancing] should by no means dampen the passion around photography and capturing celebrated moments and stunning images says Al Suwaidi. Indoor photography, while presenting its own set of challenges, can be quickly aced with the adoption of a few tips and tricks, allowing you to document the season and tell a powerful visual story.

Below, she shares some tips on how to capture powerful images from the comfort of your home

It is important to understand how ISO settings a camera setting that can brighten or darken a photo affect the quality of images.

"In most cases you should aim to have high ISO numbers indoors as these will lead to sharper photographs, especially in low light conditions," says Al Suwaidi. "Indoor lighting adds to the complexity, especially when it is dark outside. For instance, you can set the Aperture at /2.5 in combination with a shutter speed of 1/20 and an ISO of 5000.

"Try these settings out but it is also worth playing around with them until you get the image quality you prefer."

The great thing about natural light is that it's not only limited to outdoor shoots.

"First, place the items you want to capture on a table next to a window or door with plenty of natural light. The more items you have the more creative you can get, while fewer objects can be a little more challenging," says Al Suwaidi.

Keep in mind that shadows can be very distracting.

To soften shadows, keep the window or curtains closed. But if it is still too strong then, place a diffuser in front of the items you wish to photograph.

"Alternatively, you can also put a white board or large piece of paper opposite to the sunlight to help soften the shadows," says the photographer.

Play around with the placement of the items. Get creative with placement and angles to see how they turn out. Then add or remove items to see how that impacts the image.

Essential camera accessories include a strong and sturdy tripod, while some great filters can come in handy for those not looking to spend too much time editing.

"To really see how good your photos are, it is better to transfer them to a computer to allow you to view them on a larger screen. That way you can pick out finer details or get more ideas on composition," says Al Suwaidi.

"Use an editing programme to crop or manipulate your photographs with post-production effects so they look their best. Free editing tools are easily available and are great with basic or complicated edits right from correcting colors to erasing blemishes and much more."

Do not leave the storage of your photographs and data to chance. If you are filing your photographs locally it is recommended that you have one dedicated storage drive in addition to your computers internal drive.

"One popular option is an external SSD with enough space to save thousands of high-resolution raw files and hours of high-bitrate 4K video like the SanDisk Extreme Pro portable SSD," recommends Al Suwaidi

Updated: May 24, 2020 11:38 AM

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Emirati photographer Suaad Al Suwaidi captures spirit of Eid by showing objects at home - The National