Clean Energy

Geothermal Energy TechnologyGeothermal energy is renewable energy source. Geothermal energy is renewable power source since earth’s heat is being continuously replenished by the radioactive decay of minerals at a rate of 30 TW.

Where the geological circumstances are correct, it is feasible to harness geothermal heat by drilling into warm aquifers. Power is derived from warm aquifers by drilling bore holes to draw the heated liquid up to the surface. The water can be up to 100°C. Warm aquifer geothermal power is particularly suitable for district heating schemes due to the localised nature of the phenomenon.

Industrial sector represents as one of the most grievous victims of the crisis. It is bloody picture of units becoming shut down or run at low capacity, layoffs taking spot, and overall loss of competitiveness of the nation, all of which is also hurting the economy and comparative advantage. A different consequence for this sector is flight of capital not only foreign but regional investors are investing, for instance, in Bangladesh, moving textile units there. If this crisis is not solved right away, the industrial growth could be reversed completely, allowing foreigners to decimate local market and innovation forever.

With robust international cooperation and assistance from industrialized nations, geothermal energy can play a great portion in helping building nations to realize the MDGs by simultaneously battling climate change and improving living requirements. Geothermal gives energy solutions from a clean source, is safe, and is free from fuel value fluctuations, as a result escalating the quantity of financial resources accessible for financial improvement and the attainment of the MDGs.

The researchers discovered their fluid consistently made little, but successful cracks in rock samples. Some of the new fractures have been also little to be observed with a high-resolution imaging method named X-ray microtomography. But when they watched fluids such as water or carbon dioxide becoming injected, the team saw liquids moving through the previously impermeable rock samples. Moving liquids did not pass through rock samples that had been injected with plain water or the widespread hydraulic fracturing chemicals sodium dodecyl sulfate and xanthan gum. The group reasoned larger-scale tests may produce larger cracks.