QUITE SHORT TECHNICAL DESCRIPTION OF "eX-MATTER"

Where as E=energy.  

eXM= none Matter properties which are two universal forces. ΔT =change in time during lopped off for merging the boat forces.

What is E=(eXM)2ufΔt

What does E=(eXM)2ufΔt mean in simple terms?

E = (eXM)2ufΔt. It's the equation, that mean "Energy equals eX mass split, swap and multiply boat forces during time." On the most basic level, the equation says that energy and eX mass (nonphysical matters which are the actually a newly discovered hidden forces denoted by "universal extreme and Aref cruising surge forces of nature" which can be just feel and proceed by CPG technology) are interchangeable; they are different forms of the same thing.

MOST SHORT TECHNICAL DESCRIPTION OF CPG TECHNOLOGY.

To convert the newly discovered "MOTHER green energy source eX-MATTER" into electricity by an advanced and specific “eX” swap augment mechanism is called Innovative State of the art MOTHER green energy technology (CPG). Which is the more and more reliable and advanced then solar, wind and carbon fuel cell as will.

Note That all the thirty-two mechanisms of MOTHER clean power generation CPG need to be world Patent. Therefore, for time being it is technically not possible to define details of both MOTHER clean power generation technology CPG as well as MOTHER green energy source eX-MATTER.

clean power generation CPG is a system, being developed by the Global Alternate Solutions Ltd,  targets both radically quite lower cost and ultra-high efficiency (85% using new discovered cutting edge MOTHER green energy source eX-MATTER for commercial applications up to 1 MW.

SUSTAINABILIY OVERVIEW

For Clean and Green World, CPG MOTHER green energy sustainability is a new concept. It’s part of who we are and what we do in near future. From low-intensity carbon fuels to clean power generation, Global Alternate Solutions Ltd. puts sustainability in action by delivering a wide range of power solutions that make the world operations more efficient and environmentally friendly.

Accelerating renewable energy technology deployment:

Renewable energy technologies are on the verge of a new era. In many countries and regions, renewable energy is already responsible for meeting a substantial share of energy demand. The rapid and substantial progress of renewable energy in recent years has been driven by policies of local, national, and regional authorities, in close cooperation with the business community, as well as continued technological innovation and cost reductions in energy generated with renewable sources.

Progress in building new energy systems is already considerable. But issues like energy independence, eradicating energy poverty, combating climate change and improving the crisis-robustness of energy systems are asking to accelerate the deployment of renewables. Recent events that have had large impacts on societies around the world—e.g., the financial crisis, the nuclear accident in Fukushima, large oil spills, new findings in climate change science have further highlighted this need.

However, there are also some trends that mask the opportunity of accelerating renewable energy growth. For instance, the promising short-term benefits from exploring new fossil sources like oil in arctic regions or shale gas are mobilizing powerful forces that tend to disregard the long-term disadvantages. Meanwhile, in debates the real costs of renewables are often misrepresented or misperceived, and the reality of integrating decentralized renewable sources in grids is often misperceived as a hurdle that cannot be taken.

One should acknowledge the real challenges of large-scale deployment of renewable technologies, which requires both institutional, technological, and societal change. But the challenges of a business-as-usual strategy outweigh a renewable route by orders of magnitude: dealing with increased and volatile oil prices, insecurity of energy supply, climate change, air pollution, major accidents, et cetera.

So here is nowadays’ challenge for policy makers and decision makers: how to pass the threshold in the short term to prepare for the longer term? Achieving energy systems that will meet tomorrow’s energy demand in a sustainable, responsible way is possible, as some countries already prove. But further deployment requires a large effort on the part of policy makers and business leaders.

The International Energy Agency’s Implementing Agreement on Renewable Energy Technology Deployment (IEA-RETD) is a group of nine countries that advocate a significantly higher utilization of   renewable energy technologies. RETD believes international cooperation and public-private partnerships are crucial means to establish a more rapid and efficient deployment, and that it is important to step up to the plate today.

This Ready book has been commissioned for the purpose of inspiring and guiding action to begin now. To the readers—policy makers and other decision makers the Ready book presents a variety of policy options that have proven to accelerate the deployment of renewable energy technologies, based on experiences around the world at the local to national to regional levels. Lessons learned from successful cases reviewed in the book are distilled into six essential action points. Together these categories of policy actions compose the ACTION Star, a guide for acting now while preparing for growth over the long term.

Decision and policy makers will find inspiration in the significant renewable energy developments to date, the many examples of successful policies in this book, and the ACTION star which provides policy recommendations for the way forward in six categories of actions that policy makers can begin to take now.