https://www.blogger.com/blogger.g?blogID=8926591330622788414#comments

Wednesday 25 March 2015

Hybrid Power Generation Market - Global Industry Analysis and Forecast 2014 – 2020

Long-term promise and potential for renewable energy sources remains vast. But the reality of current renewable technologies and the plain fact that today’s utilities and their users demand constant availability means that fossil fuels are here to stay for a while longer as a base generation source. However, that does not mean that renewable have to take a back seat in the evolving power-generation market. There are strategies for renewable integration that utilities and power-generating companies should consider implementing that expand the value and functionality of renewable. The advancements in hybrid configurations, leverage renewable sources so they can make increased energy contributions far exceeding previously envisioned limits. The intelligent, strategic use of hybrid systems (fossil fuels and renewable energy) significantly lowers fuel consumption, which improves operating economics and curtails emissions.
The high quality of exhaust heat from such generators can also be harnessed for heating purposes. Such power plants are usually employed for providing electricity grid relief and power supply during peak consumption hours. However with technological advancements these plants are now also being utilized for supplying base loads. Very fast startup times for these plants also provide opportunities for using them as backup generation for emergencies. With shale gas and coal bed methane being considered as valuable sources of energy for the future, and the fact that renewable sources of energy are unending, the opportunities of this market are substantial. Certain factors like increasing cost of both oil and natural gas as well as increased prices of renewable capture components (e.g. solar panels) in most nations may prove to be barriers to growth. However demand for hybrid generation is not likely to slow down in the near future specially in OECD countries.
There are many ways in which such generators can be used for generation of electricity and other forms of useful energy. Hybrid turbines for electricity generation may be segmented based on the combination of equipment used to generate energy, for instance diesel generators combined with wind-generated energy. Such turbines can also be segmented on basis of feedstock consumed for generating power. The fuels that may be considered are natural gas, fuel oil, kerosene and diesel as fossil fuels and wind energy and solar energy as renewable.
Majority of plants using theses turbines are clustered around regions where fuel to run them are abundantly available. However with global trade of oil and natural gas growing and peak demand problems becoming more acute more nations are opting for such power plants. China is emerging as the leading energy consumer of the world thus increasing the prospects of using this source of generation in the Asia Pacific region. Also contributing to installations is Japan which has begun replacing nuclear generation after the Fukushima disaster, with natural gas-based hybrid generation. In the OECD countries the majority chunk of thermal generation comes from such power plants. Use of such power plants is predominant in Middle Eastern, Eurasian and North American regions. The regional segmentation for these turbines can be done based on North American, Middle Eastern, Asia Pacific and rest of the world (ROW) regions.
Some of the key players in this industry include NYE Thermodynamics Corporation, Mitsubishi Power Systems Europe Ltd., Siemens AG, Doosan Heavy Industries & Construction Co. Ltd., and MJB International.
Browse Market Research Blog:


Lubrication Systems Market - Global Industry Analysis and Forecast 2014 – 2020

Effective lubrication systems form an essential component of any lubrication program by enabling customers to reduce consumption and energy consumption. Lubrication systems provide essential amounts of lubricants to minimize friction and wear & tear in moving parts of machinery. These systems are widely used in industrial applications to improve the productivity and reliability of machine parts. With the advancement of technology several monitoring and controlling systems have been developed which assists in further increasing the reliability and performance of lubrication systems. Essential parts within lubrication systems such as lubricant reservoirs and lubricant injectors are generally monitored by alarm systems. When the lubricant reservoir decreases or any unwanted flow trend in noted an alarm signal is sent to the main controlling room. The market for lubrication systems is anticipated to grow at a substantial rate owing to its increasing usage in industrial and automotive applications.
The rapid industrialization in developing economies and requirement of efficient lubrication systems in automobiles are the major drivers for the lubrication systems market. Moreover, the reduction in the wear and tear losses on use of lubrication system is another factor driving the lubrication system market. The use of lubrication systems reduces the cost involved in damage repair of the machine parts. Energy efficiency initiatives taken by industrial groups and environmental regulations are also essential driving forces attracting investment in this market. Lack of awareness about the presence and benefits of the lubrication systems among the end users is one of the major restraints of lubrication systems market. Increasing industrialization especially in Asia Pacific countries such as China, India and Indonesia can act as the opportunity for the lubrication systems market.
The segmentation of the lubrication systems market can be done on the basis of type, technology, end user industry and geography. On the basis of type the lubrication systems market can be categorized as manual, centralized and automated systems. The centralized and automated lubrication systems are the dominant segments in this category. On the basis of technology the lubrication systems can be divided into dual line lubrication systems, single shot oil lubrication systems, progressive lubrication systems, gear spray lubrication systems, conveyor lubrication systems and multipoint lubrication systems. Major end users of lubrication systems include industrial machines, cement industry, steel and paper industry, automobile, power and energy industries. The use of lubrication systems by these industries protect their machineries against the wear and tear caused due to the friction amongst the components.
Currently, Europe is the major market for lubrication systems. The energy efficiency measures and environmental regulations announced by industrialized nations in this region is a major factor attracting investment in the lubrication systems market. Several major automobile companies also operate in Europe which further drives investments in this market. North America also occupies a significant market share of the global lubrication system market. The expanding industrial economies of Asia Pacific are potential markets for the lubrication system market. The growing demand of lubrication systems from the automobile and the mineral processing segment is also anticipated to account for a significant portion in Asia Pacific. Industrialization activities in Latin America and Africa also provide growth opportunities to the lubrication systems market.
Some of the key players in the lubrication system market include companies such as Cenlub Systems, SKF, Dropco Multilub Systems Private Limited, and Lincoln Industrial Corp.



Electric Power Generation Infrastructure Market - Global Industry Analysis and Forecast 2014 – 2020

Surge in economic development after the recession has led to the growth in power infrastructure development activities. Supportive nature of government policies, concerns related to energy security, increase in population is the major factors that have fuelled the electric power generation market. Many new thermal, hydro, solar and wind related power generation projects have started as countries are looking to boost their generation capacities in order to satisfy the energy demand. Stringent government regulations advocating the use of renewable energy is another factor that has boosted the development of global power generation infrastructure. Decline in per watt cost of generation coupled with the provision of bonuses and subsidies on use of renewable energy have played a significant role in power generation infrastructure market. Beside the renewable sources the easy availability of fossil fuel in the market has also driven the power generation infrastructure market. Countries are now engaged in importing fossil fuels such as coal, crude oil and natural gas to feed their power plants.
The segmentation of the electric power generation infrastructure market can be done on the basis of type of energy sources and geography. Power projects can be divided into either renewable energy based and non renewable energy based power projects. Renewable power projects utilize solar, wind, tidal, wave and geothermal energy to generate power. The clean power generation without any toxic emission is one the major advantage of using renewable sources. Moreover, being abundant in nature these resources can be utilized again and again without depletion. On the other non renewable power projects utilizes fossil fuels such as coal, oil and natural gas to generate power.
The regional segmentation of the electric power generation infrastructure market include countries such as the United States, Canada and Mexico in North America. The increase in population coupled with the easy availability of fossil fuels is one of the major factors influencing the North American power infrastructure market. Moreover, govern support through tax rebates and subsidies have also affected the development of power infrastructure. European market includes countries such as Russia, Germany, the United Kingdom and France. Climate and energy targets decided by the European Union have led to the development of renewable energy based power projects in these regions. Asia Pacific region include countries such as China, India, Japan and South Korea. The Middle East and African region includes countries such as Saudi Arabia, Ira, Iraq, Nigeria, Egypt and Algeria. Easy availability of fossil fuel is on the major factor in the development of power infrastructure in this region. Rest of the World segment includes the Latin American countries such as Brazil, Argentina and Venezuela.
Increasing population and growing power demand, supportive government policies, concerns related to energy security are the major drivers for the electric power generation infrastructure market. High installation and operating costs and lack of grid infrastructure in some of the countries is the major restraint to the electric power generation infrastructure market. Increasing population along with the rapid industrialization can act as the opportunity for the companies in electric power generation infrastructure market.
Some of the major players in electric power generation infrastructure market includes companies such as Acciona, S.A., LANCO Group, Reliance Infrastructure, Tokyo Electric Power Company and GDF SUEZ S.A.



Micro Hydro Electric Market - Global Industry Analysis, Trends and Forecast 2014 – 2020

Water power can be utilized in numerous ways; tidal flows can be used to generate power by building a barrage across an estuary and discharging water in a controlled and systematic manner by a turbine; large dams accumulate water, which can be utilized to provide ample quantities of power; wave power is also harnessed in different ways. It is a method that has been in use throughout the world, by a diverse range of cultures and societies. Water can be harnessed from small to large hydro electric plants.
In United Kingdom, water mills are in use for the past 900 years. Their numbers grew rapidly and by the end of 19th century, there were over 20,000 water mills in operation in England itself. In Europe, Asia and few parts of Africa, water wheels were utilized to propel various industrial machineries, such as mills and pumps. First effective water turbine appeared in the middle of 19th century and they started replacing water wheels in various applications. In contrast to the water wheels and turbines, modern turbines are small, highly efficient and are capable of running at high speed. Hydropower is a reliable technology, relying on non -polluting, renewable and indigenous resource, which can easily integrate with irrigation and water supply projects all across the globe. Of the total, china constitutes more than 85,000 small-scale, electricity generating hydropower plants.
In the last decade, there has been a growing realization in emerging economies in which micro - hydro schemes have played an important role in the economic development of remote rural areas, especially mountains. Micro hydro schemes can generate power for domestic, agricultural and industrial uses through direct mechanical power or by the coupling the turbine to a generator to develop electricity.
In order to determine the power potential of the water flowing in a river it is important to determine both the flow rate of the water and the head by which the water can be made to fall. The flow rate is the amount of water flowing past a point in a specific time. Generally, flow rate units are liters per second. The head is the vertical height measured in meters from the turbine up to the point, where the water enters the penstock.
However, some amount energy is always lost when it is transformed from one form to another. Small water turbines hardly have efficiencies more than 75%. Power will also be wasted in the pipe carrying the water to the turbine, due to some frictional losses. By a systematic design, this loss can be lower down to a small percentage. A rough guide used for small systems of a few kW rating is utilized to take the overall efficiency as approximately as 45%. Hence, the theoretical power has to be multiplied by 0.50 for more accurate results.
Growing population and developing economies are some of the key drivers of the micro hydroelectric generator market. However, limited exposure regarding micro hydroelectric generators can hinder the growth of the market. Ample opportunities are there for the micro hydroelectric generator market owing to rapid industrialization taking place in Asia Pacific countries such as India and China.
Some of the key companies in the business of Micro hydroelectric generator market are Rainbow Power Company Ltd, Brownell Micro Hydro, Hebden Bridge Alternative Technology Centre Ltd., Canyon Industries, Inc., Addnew Technologies Limited, Alps Power Technologies (P) Limited and Addnew Technologies Limited among others.