Adminicus Green Energy Jobs Consortium

25/02/2019

30/01/2019

21/09/2016

Are you are the kind of person who can think for yourself and likes to learn new things. Consider the possibility that the geothermal heat pump industry is technically decades ahead of the geothermal electric power industry. Both industries started out using what is called an open loop technology to pull heat out of the ground, however the geothermal heat pump manufactures recognized limitations of the open loop system, and developed what is now called a closed loop system. The primary difference between the two is the open loop uses an aquifer and the closed loop uses an engineered system of interconnecting pipes. When they developed this new technology, they also created a new system for calculating how best to build these closed-loop systems. This new design concept uses thermal diffusivity to calculate how much pipe will be required to achieve the optimal recharge rate of the system so the loop can produce heat without having to be moved to a new location or shut down. The geothermal electric power industry teaches to use an open loop and designs for an optimal depleting rate.
The geothermal electric power industry has redefined scientific terminology. Example, Sustainability for them is something that lasts for 30 years before it is used up. NOW THEY ARE CLAIMING TO USE A CLOSED LOOP SYSTEM. The truth is once again some people have just redefined the words to fit their application. There is a big difference between an open loop system and a closed loop system, primarily one uses an aquifer and the other does not. The new EGS systems use an artificial aquifer, but it is still an aquifer and if they did not redefine what a closed loop is, their system should still be called an open loop system, and it still has most of the problems of an open loop system. Some of these problems are why the heat pump industry developed the closed loop system in the first place. Changing word definitions does not make real scientific problems go away.
I think most of these people know a true closed loop system would solve most of their problems, but the heat pump industry is a bunch of simpletons to them and their pride prevents them from making real improvements.
A similar argument could be made for using robotics and hydrostatics in mining for heat. A lot of the limitations of current deep mining would go away if robotics and hydrostatics were used.
In any case convincing people there is a better way of doing things is always a challenge.

17/08/2016

What do you think about this?

17/08/2016

Here is a new proposed policy,For those who are inspired donors, we are now offering a monumental reward. With any donation of $100,000 or more Adminicus will commission an artist to sculpt a larger than life statue from one of the ten foot tall columns produced during drilling. These statues will be prominently displayed at the geothermal power plant in honor of those who made a memorable contribution to the development of geothermal power.

10/08/2016

The next step in the development of this geothermal power plant would be to contact potential suppliers of equipment and goods. More local these companies are, the better they would be to work with. It would be good to work with large companies like Caterpillar Corp., however companies like that usually come on board when a strong revenue has been achieved. Small companies are more likely to have the flexibility for providing the custom drilling equipment we have in mind.

10/08/2016

https://adminicus.com/
heres a link to the website

09/08/2016

Geothermal Power - Unlocking the secrets of the world's most plentiful energy supply.

Many of you have probably only heard about Geothermal Power in passing, if at all, but this type of power has the potential to eclipse virtually all other forms of power generation if it were to be implemented in a comprehensive way.

This includes using heat pumps to heat and cool large buildings in the most efficient manner possible, and also deep-earth, closed-loop, Geothermal electrical plants, which can generate power for the grid 24/7/365. This gives it significant advantages over "intermittent" alternative energy mediums like wind and solar, which need the cooperation from the daylight cycle and breezy days in order to produce power at anywhere near their potental. Geothermal power, on the other hand, is constant, because the temperature of the Earth at depth is very constant, and not subject to influence from short term weather phenomenon.

The key is awareness and political support for the technology, because wind and solar have gotten the lion's share of research money over the past twenty years, and Geothermal has been largely ignored, relatively, despite it's tremendous potential.

At Adminicus, we are trying to develop an advanced form of closed-loop Geothermal Power generation system that will radically supplement the basis for Geothermal plant siting. Historically these have had to be sited near active volcanic formations that created steam. With the new system being developed by Adminicus, all that is required is bedrock granite, which is much more common.

As part of our work to develop support and funding for our proposals, we are creating an organization devoted to promoting Geothermal power as an effective, clean, and sustainable energy generation option for the future. If you join our organization, which at this point is as easy as Liking our page, then you'll be kept informed about the advancements in this technology and our progress developing our first test plant, to prove the effectiveness of new drilling techniques designed to dramatically lower the cost of Geothermal Power Plant development.

So please consider supporting us and joining our movement by Liking our page and keeping up with our activities.

We look forward to helping build a green and prosperous future together.

09/08/2016

Grants often do not pay until work is proven with milestone of objectives in development. For that reason leasing the equipment would be the best economic choice for acquiring drilling equipment. If workers could wait two weeks before receiving their first check and suppliers could be paid one month after delivery, operating cost could be covered. This would be dependent on milestones being reached of course.
The first milestone of 5,000 ft should be reached in 2 weeks, the second milestone of 10,000 ft after the first 30 days, the third milestone of 20,000 ft after 60 days and the fourth milestone of 30,000 ft after 90 days from the start of drilling. Reaching the fourth milestone would prove drilling could be done at a 90% reduced cost and prove the drilling as being economically successful.

08/08/2016

The land owner in Manchester NH has 1,600 acres of land and they want to develop manufacturing, however high electric rates and uncertainty as to what those rates will be 5-10 years from now, are a problem. The development of a geothermal power plant could solve that issue and would increase the value of their land significantly. Adminicus should create a grant, however instead of it being funded by the government; it would be funded by the land owner. Later if the U.S. government wanted, they could add their funding to a then proven successful alternative energy project.