Introduction

The U.S. petrochemical industry is the third largest in the world and a significant contributor to the countrys GDP. The US Petrochemicals Industry is also an indispensable part of the manufacturing and consumer sectors, churning out products such as fiberglass, tires, paint, plastic, rubber, detergents, dyes, fertilizers, textiles, solvents, and more.

In the recent past however, the US Petrochemicals Industry has undergone reasonably predictable lifecycle-path phases; from initial growth and augmentation to slowing down in marginal returns, and thereafter facing
possible downturns aided by many factors such as competition and resource constraints.

The future of the US petrochemical industry appears to be uncertain at present with the imbalance created in the market by the high feedstock process. According to Business Monitor Internationals (BMI) 2008 US Petrochemicals Report, the industry is also suffering the effects of a contraction in house building and car production, with output set to further diminish in 2009 and 2010.

Besides the ongoing effects of the recession, the US petrochemicals industry is faced with radical changes in the regulatory environment. The US is seeing a new policy climate with greater stress on tackling climate change through reducing carbon dioxide (CO2) emissions. This move has major
implications for the energy-intensive petrochemicals industry. A bill seeking to make a 17% greenhouse gas emission reduction through 2020 has raised objections from the chemicals industry lobby. The industry could find it difficult to maintain both competitiveness in global markets and meet its carbon
targets, unless it introduces some drastic changes in the way it demands and uses energy.

Energy and the Petrochemical Industry

Energy is a very important cost factor in the chemical industry in general. The petrochemical industry is even more energy-intensive than other sub-sectors within the chemical industry. The sector spent about $10 billion on fuels and electricity in 2004.

The petrochemical industry is responsible for 70% of the chemical industrys expenditures on fuels and 40% of the expenditures on electricity. The cost of energy and raw materials are roughly 2/3rds of the total value of shipments of the petrochemical industry. Because energy is such a crucial cost factor for the
industry, improvement in energy efficiency is an important way to reduce costs and increase predictable earnings, especially in current times of high energy price volatility.

US manufacturers in the petrochemical industry also face an increasingly competitive global business environment; it is thus imperative that they reduce production costs without negatively affecting product yield or quality. Improving energy efficiency reduces the bottom line of any petrochemical plant.

Successful, cost-effective investment into energy-efficient technologies and practices meets the challenge of maintaining the output of a high quality product despite reduced production costs. This is especially important, as energy-efficient technologies often include additional benefits, such as increasing the productivity of the company and reducing the emission of greenhouse gases.

There are a variety of opportunities available in the US petrochemical industry to reduce energy consumption in a cost-effective manner. Companies are thus coming together to begin the process of jointly exploring new and more energy-efficient processes that could dramatically reduce the dependence of the US petrochemical industry on foreign oil. The US petrochemicals industry is being hit by a rapid rise in energy costs and the The Role of Transformers

Transformers, besides other things like switchgear, converters, low-voltage equipment and power-plant solutions, are just some of the things that contribute to the efficient production and management of highquality
electricity.

Most standard transformers in industrial settings operate at full load and have 90 to 95% efficiency. However, one of the main reasons for energy loss in a transformer is due to inefficiencies in the transformer core. This issue is addressed in high-efficiency transformers that utilize the latest core
technologies to reduce core losses. The positive jump in efficiency is due mainly to the fact that the core is energized 24/7, even when the transformer load is turned off or disconnected.

Another issue of concern is that of transformer load. With the majority of the electricity used in the US being run through transformers at lower loads, sizable amounts of energy are being wasted. This issue is
of special relevance to an industry like that of Petrochemicals which already is a high consumer of energy.

The Need for Energy-Efficient Transformers

Compliant transformers are able to maintain National Electrical Manufacturers Association (NEMA) Class 1 efficiency levels at 35% load. This is accomplished by using higher-grade grain-oriented steel in the core rather than the standard non grain-oriented type. Grain-oriented steel offers thinner gauge and purer
metallic material quality, reducing heat caused from eddy currents by limiting the direction in which current can flow. This narrowing of the magnetic field into a thinner profile also reduces the canceling effect of opposing currents.

Increasing the energy efficiency of a transformer allows the unit to operate at the same level of power with less energy being wasted. This has a large impact on the consumption and distribution of energy because the reduction in energy usage improves the countrys energy independence, reduces its carbon
footprint and lessens infrastructure investment.

Decreasing energy usage by reducing waste even by .03% over the next 20 years cuts the need for new power generation by 60 to 66 million kilowatts. That drop would eliminate the need for construction of 11 new 400-megawatt power plants by 2038.

Electrical power generation accounts for 35% of all US emissions of carbon dioxide, 75% of sulfur dioxide and 38% of nitrogen oxides. With higher-efficiency transformers, the country will see reduced emissions
of CO2, NOx and Hg of 678.8 Mt, 187.7kt and 6.48t over the next 30 years. Curbing energy imports will also bolster the US economy by reducing the current $65 billion trade deficit and mitigating fuel prices through decreased demand.

The compliant transformers will cost more than their lower-efficiency predecessors due to the higher price tag for grain-oriented steel, additional labor and higher raw material costs. While the compliant transformers will add to the cost of construction and maintenance projects, the end user will save this cost over the life of the transformer.

The Role of Transformers

Transformers, besides other things like switchgear, converters, low-voltage equipment and power-plant solutions, are just some of the things that contribute to the efficient production and management of highquality
electricity.

Most standard transformers in industrial settings operate at full load and have 90 to 95% efficiency. However, one of the main reasons for energy loss in a transformer is due to inefficiencies in the transformer core. This issue is addressed in high-efficiency transformers that utilize the latest core
technologies to reduce core losses. The positive jump in efficiency is due mainly to the fact that the core is energized 24/7, even when the transformer load is turned off or disconnected.

Another issue of concern is that of transformer load. With the majority of the electricity used in the US being run through transformers at lower loads, sizable amounts of energy are being wasted. This issue is of special relevance to an industry like that of Petrochemicals which already is a high consumer of
energy.

The Need for Energy-Efficient Transformers

Compliant transformers are able to maintain National Electrical Manufacturers Association (NEMA) Class 1 efficiency levels at 35% load. This is accomplished by using higher-grade grain-oriented steel in the core rather than the standard non grain-oriented type. Grain-oriented steel offers thinner gauge and purer
metallic material quality, reducing heat caused from eddy currents by limiting the direction in which current can flow. This narrowing of the magnetic field into a thinner profile also reduces the canceling
effect of opposing currents.

Increasing the energy efficiency of a transformer allows the unit to operate at the same level of power with less energy being wasted. This has a large impact on the consumption and distribution of energy because the reduction in energy usage improves the countrys energy independence, reduces its carbon
footprint and lessens infrastructure investment.

Decreasing energy usage by reducing waste even by .03% over the next 20 years cuts the need for new power generation by 60 to 66 million kilowatts. That drop would eliminate the need for construction of 11 new 400-megawatt power plants by 2038.

Electrical power generation accounts for 35% of all US emissions of carbon dioxide, 75% of sulfur dioxide and 38% of nitrogen oxides. With higher-efficiency transformers, the country will see reduced emissions
of CO2, NOx and Hg of 678.8 Mt, 187.7kt and 6.48t over the next 30 years. Curbing energy imports will also bolster the US economy by reducing the current $65 billion trade deficit and mitigating fuel prices
through decreased demand.

The compliant transformers will cost more than their lower-efficiency predecessors due to the higher price tag for grain-oriented steel, additional labor and higher raw material costs. While the compliant transformers will add to the cost of construction and maintenance projects, the end user will save this cost over the life of the transformer.

Benefiting from Better-Designed Transformers

Increasing the energy efficiency of a transformer allows the unit to operate at the same level of power with less energy being wasted in the process.
Electric power systems throughout the petrochemical industry are designed to normally operate at 50 or 60 Hz. With proper planning during the design phase of the power system for a petrochemical plant, certain harmonics can be minimized. Another way to minimize harmonics in the petrochemical power
system is to minimize the saturation of transformers by maintaining the operation of the transformer in a reasonable voltage range.

The system short-circuit capacity is an important factor in determining the impact of power electronic loads in the petrochemical industry. Where the power system is weak with a relatively low short-circuit capacity, the voltage distortion caused by the harmonic currents can be significant. Conversely, where the power system is strong with a relatively high short-circuit capacity; the voltage distortion caused by the same harmonic current sources might be negligible. Thus, one solution to minimize the voltage distortion caused by power electronic equipment is to install the equipment on a strong power source.

Energy Policy Act 2005 Mandates High-Efficiency Transformers

The Energy Policy Act 2005 mandates that distribution transformers meet specific efficiency levels starting January 1, 2007. The production of non-compliant models was to be halted by 2006. The catch, however, is that the higher-efficiency transformers also cost more to build than the non-compliant models. By mid-2007, the U.S. Department of Energy (DOE) was evaluating the efficiency standards for transformers because it was clear that even a slight improvement could save significant amounts of electricity which was currently being wasted well before it reached consumers. Efficiency in transformers would also reduce emissions from electric generating plants, as they would need to produce less energy.

The DOE was planning to issue new guidelines for distribution transformers by 2008. Once in place following a gradual phase-in, the new transformers are expected to save 26 billion kilowatt-hours annually. This will in turn reduce annual emissions from electric power plants by 15 million metric tons,
about equal to the average annual emissions of 2.7 million automobiles.

Pacific Crest Transformers and the Petrochemical Industry

Pacific Crest Transformers (PCT) has been catering to clients in the Petrochemical industry since its inception in 1919, thus making it possibly the only such company with 90 years of continuous domain
experience.

While the thrust towards energy-efficient transformers may be a relatively new phenomenon in the US, environmentally conscious companies like Pacific Crest Transformers (PCT) began eco-friendly initiatives years earlier.

PCT is committed to designing and manufacturing superior quality, custom-built and specialty transformers in the most cost-effective and responsive manner possible. The company has experience in building Padmount, Station and Secondary Unit Sub Transformers, and today specializes in environmentally friendly and efficient liquid-filled distribution transformers. PCT was propelled towards its energy efficiency initiative in its attempt to produce efficient, energy saving and therefore environmentally sensitive transformers.

The main thrust at PCT has always been customizing transformers after elaborate consultative processes
with the client. The transformers eventually built are based on client specification and are designed to fit
into the existing infrastructure.
Over the years PCT has designed transformers for:
Hazardous, flammable, or explosive environments
On-shore and off-shore platforms in corrosive atmospheres
Special taps and voltages as required
Harmonic loads from PLC and VFDs
High-pollution areas
PCTs transformers are present in environments where there is drilling and refining of fossil fuels, including natural gas, from areas with varied climatic conditions ranging from the hot humidity of the gulf coast to the frigid north slopes of Alaska. PCT Transformers are used throughout the process of
acquisition, transportation, and conversion of the end-products.

Conclusion

Energy is definitely a key driver of the Petrochemicals Industry, and so it is only natural that in the face of an uncertain oil future, companies take another look at the way they consume energy. Energy that is saved is considered the cleanest way of generating additional energy and steps to save energy are long
overdue.

Companies in this sector need to study their processes from an energy-efficiency standpoint and look at the various ways of conservation. With increasingly competitive times ahead, these steps taken now can
result in significant cost reduction. It may also be necessary to retrofit or invest in energy-efficient transformers, and restructure the existing energy system and here, working with a manufacturer that has deep domain expertise and sound long-term environmental strategies can make a real difference.

To know more about Energy Efficient Transformers check out Pacific crest transformers website.

According to a new market report published by Transparency Market Research “Gaming Market – Global Industry Analysis, Size, Growth, Share and Forecast 2011 – 2015”, global gaming market was worth USD 70.5 billion in 2011 and is expected to reachUSD 117.9billion in 2015, growing at a CAGR of 13.7% from 2011 to 2015. In the overall global market, The Asia pacific region is the fastest growing geographical segment till 2015.The demand is forecasted to increase in the upcoming years worldwide due to advanced gaming features and increasing number of internet users.

Browse Global Gaming Market

The Global Gaming market is influenced by the emerging number of users who take up gaming as the best tool of entertainment. Consumers look for exciting world of interactive entertainment at their finger tips. Consumer’s interest has reflected into robust growth of the industry. The users range from the age group of 5 years to 45 years. The Gaming industry is divided into software market and the Hardware market. The hardware market comprise of the physical instruments such as consoles, Gaming Hardware tools, PC, Laptops, Mobile, Tablets etc whereas the software market includes the new gaming software development . The software market accounts for the maximum share in revenue generation than the hardware market which is followed by the revenues generated by online gaming market.Gaming has boost up due to increase usage and supportability on Laptops, Mobile, and Tablets etc.There are millions of games which are available for free on the internet or at a very minimum price.

The availability of high speed internet connectivity, Sophisticated gaming techniques, Efficient hardware compatibility, increased disposable incomes, are the drivers which provides boom in the gaming industry.Fraudulent gaming, maturation of the technology and innovation in other entertainment industry proves to be a restrain in the growth of gaming industry. There is a vast scope on the gaming industry. Game developers can emphasis on non core products by providing valuable new products and services. More inputs on the concept of online gaming can be beneficial for the growth in the industry. Mergers and acquisition of the gaming companies with the service providers can bring makeable change in the industry.

The whole video gaming industry can be classified into various segments based on factors like by,Components (Hardware, Software, Infrastructure Enabling technologies), by Geography(U.S, Europe, Asia Pacific, RoW)and by application in hardware and software. Nintendo, Sony, Microsoft are the major market players in the gaming industry. There are also other players who have significant market share in the industry such as, Zynga, Apple, EA sports, Disney entertainment, Activision Blizzard and others.

This research is specially designed to estimate and analyze the demand and performance of Gaming industryin global scenario. This research provides in-depth analysis of gaming product manufacturers, product sales, and trend analysis by segments and demand by geography. The report covers all the major applications of the global Gaming market and provides in-depth analysis, historical data and statistically refined forecast for the demand of Gaming. The study presents a comprehensive assessment of the various opportunities in the gaming market on the basis of its applications across sectors.

Browse http://www.transparencymarketresearch.com/global-gaming-market.html

Cement is one of the main industries that plays a pivotal role in the growth and expansion of a nation. The cement industry is one of the main beneficiaries of the infrastructure boom in the country. The Indian cement industry is huge, and it has great production capacity. Currently, the total capacity of cement industry is about 165 million tonnes, which is the second largest in the world.

Cement is one of the vital constituents that is required for every construction purpose, such as industrial, housing, and also for construction of infrastructures, such as roads, ports, bridges, power plants, and so on. Thus, the cement industry is a significant contributor to the revenue collection of the government.

In India, the cement industry in the initial stages grew very slowly and the supply struggled to meet the demands. However, the scenario changed drastically after the liberalization period. The cement industry began to grow and since then the supply of cement has always managed to keep pace with its demand.

Today, the cement industry in India is one of the most advanced and pioneering sectors in the country, and the cement industry has a huge potential for growth and attracting new investments. The cement industry in India uses the most modern and world-class technology. Also, because India has a high quantity and quality of limestone deposits throughout the country, the cement industry promises huge potential for growth.

The government of India has set ambitious plans to increase the production of cement in the country, and to attain the target the government has made huge investments in the sector. The Department of Industrial Policy and Promotion, which falls under the central Ministry of Commerce and Industry, is the agency that is responsible for the development of the cement industry in the country. The agency is actively involved in keeping track of the performance of cement companies in the country and provides assistance and suitable incentives when required by the company. The department is also involved in framing and administering the industrial policy for foreign direct investments in the sector. Apart from formulating policies, the department also promotes the industry to attract new foreign investments in the sector.

The Department of Industrial policy and promotion plays an active role in promoting foreign investment in India in the cement industry by providing useful information to the investors about the investment climate and opportunities in India. The department also provides advice to prospective investors on various policies and investment procedures.

In order to promote investment in the sector, this department has greatly emphasized the development of good transportation facilities to ensure smooth transportation of bulk cement. It also aims to support the investors by providing them with R&D facilities and technological assistance.

The cement industry in India has been attracting several top-notch cement companies worldwide, which reflects the fact that this industry holds huge potential for investment. Also, due to the boom in the housing sector world-wide and the increased activity of the development of infrastructure, the demand for cement is set to increase globally. Thus, the investors having nothing to lose and are all set to benefit from investing in Indias cement industry.

NFIB and WIA to Provide Better Protection for Wine Investors

Millions of Britons enjoy drinking it and many now see it as a long-term investment. Unfortunately, fine wine has also become a focus for fraudsters who trick investors into buying wines or vineyards that bear little resemblance to what they see in the prospectus, or may not even exist. The increasing number of such rorts in Britain has led to calls for action to be taken to protect investors and to increase consumer confidence in fine wines. In the upshot, the UKs National Fraud Intelligence Bureau (NFIB) is joining forces with the newly-formed Wine Investment Association (WIA) to tackle the problem.

On 14 February 2013, the NFIB and the WIA jointly announced the launch of the new self-regulatory body which will aim to transform the growing wine investment industry by providing better protection for investors in the UK. The WIA has been formed by leading figures from the fine wine investment industry and seeks to support the sector’s growth through voluntary regulation, establishing best practices and setting up processes to identify fraudulent activity.

Director of the NFIB, Det. Supt. Dave Clark, said: “Fraudsters will always follow the money, wine investment is just the latest in a long line of investment opportunities that are being exploited and corrupted to the detriment of the industry as a whole. He added that the NFIB sees the creation of an auditable framework of self-regulation as a step towards maintaining and increasing consumer confidence, while also identifying investment companies which do not operate in accordance with the required high standards.

New Code to Tackle Wine Investment Frauds

Following an extensive consultation period, the WIA has set out the standards and procedures with which its members must comply to remain in good standing. Under the new code of conduct to be drawn up, wine investment firms will undergo stringent audits by accountancy firm Mazars. These will include checks on systems such as stock rotation and to make sure that purchase orders and invoices tally. The director of the WIA, Peter Shakeshaft, revealed that companies which successfully complete the independent audit process commissioned by the newly-formed regulatory body will bear a WIA logo offering consumers a trustworthy safety kitemark. Shakeshaft added: Our industry has been held back far too long by unscrupulous practitioners and issues around fraud. The WIA will really hold the industry to account.

The BPO or Business Process Outsource industry of the Philippines had grown significantly because of a number of industries in the Philippines that contributed to the success of the BPO industry. And one industry that largely contributed to the success of the BPO industry is the call center industry of the Philippines.

Successful Industry in the Philippines
The call center industry of the Philippine is considered today as one of the most successful and one of the largest industries in the Philippines. The success of this industry had also placed the Philippines as the call center capital of the world, recognizing the industry as the largest provider of Outsource Call Center service in the global market.

So what are the reasons why the call center industry became successful in the global market? According to industry experts, the industry became very successful because of a number of call center companies that contributed their own successes in the market to the growth of the call center industry. A popular example of a call center company in the Philippines is Magellan Call Center.

A Successful Call Center Company
Magellan Call Center was one of the many successful call center companies and agencies in the Philippines. It was established at the time when the demand for call center services in the Philippines had grown dramatically since the first call center companies had offered live answering services to different businesses in the Philippines.

However, what made Magellan Call Center unique in the market is because of its collection of Small Business Answering service including Order taking service and reservation services. And it was because of these small and simple types of call center services that Magellan Call Center had gained a lot of popularity with. This is because Magellan Call Center was only one of the few call center companies and agencies in the Philippines that provided such services.

Magellans Contribution
Because of the services that the call center industry have provided, the call center industry had gained access in many other markets in the Philippines which were considered inaccessible in the past due to their present call center services that aims only to provide live answering services to large businesses.

Eventually, the number of call center companies similar to Magellan Call Center had grown which further expanded the reach of the call center industry even to the global market.