Mining Empire: Earth Resources Crack+all Fatal Errors Fixed

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About This Game Money literally lies beneath our feet, but only few are willing to make an effort to get it. You are one of those enthusiasts who are not afraid of hard work and possible risks, and bravely go down to the bowels of the earth to find their wealth. Neither the severe climate of Siberia, nor professional challenges can stop you from achieving your cherished goal - to get enough resources for a lunar station.Run large Russian enterprises whose mission is to explore, exploit and sell both minerals and processing products. Organize your work in a way to minimize costs and increase profits, expand your business on domestic market and gain access to external ones. Search for new reserves, but don't forget about competition: it’s not only you who wants to make these mines their own gold ones. Convert your income into gold reserve to top the leaderboard.GEOGRAPHIC ACCURACYExploration and exploitation are being carried out on the same territories of the Russian Federation as in real life.MANAGEMENT TASKSLarge enterprises are in your hands, which means that you have to make important decisions affecting the future of your business.ELEMENT OF COMPETITIONTry to top the Steam leaderboard by earning a gold reserve larger than other players. 7aa9394dea Title: Mining Empire: Earth ResourcesGenre: Indie, Strategy, Early AccessDeveloper:PlayloftPublisher:PlayloftRelease Date: SPRING 2019 Mining Empire: Earth Resources Crack All Fatal Errors Fixed Sneak Peek #12 - Oil refinery: Oil refinery is an industrial enterprise whose main function is the processing of oil into gasoline, jet fuel, fuel oil, diesel fuel, lubricating oils, lubricants, bitumens, petroleum coke, raw materials for petrochemistry. The refinery's production cycle usually consists of the preparation of raw materials, the primary distillation of crude oil and the secondary processing of petroleum fractions: catalytic cracking, catalytic reforming, coking, visbreaking, hydrocracking, hydrotreating and mixing of the components of finished petroleum products.Refinery ProfilesFuel profileAt the refinery of the fuel profile, the main products are various types of fuel and carbon materials: motor fuel, fuel oil, combustible gases, bitumen, petroleum coke, etc. A set of installations includes: mandatory - oil distillation, reforming, hydrotreating; supplementary - vacuum distillation, catalytic cracking, isomerization, hydrocracking, coking, etc.Fuel and oil profileIn addition to various types of fuel and carbon materials, the refinery of the fuel and oil profile produces lubricants: petroleum oils, lubricants, and solid paraffins. A set of installations includes: installations for the production of fuel and installations for the production of oils and lubricants.Fuel and petrochemical profileIn addition to various types of fuel and carbon materials, petrochemical products are fabricated at the refinery of the fuel and petrochemical profile: polymers and reagents. A set of installations includes: installations for the production of fuel and installations for the production of petrochemical products (pyrolysis, the production of polyethylene, polypropylene, polystyrene, reforming, aimed at the production of individual aromatic hydrocarbons).. Sneak Peek #19 - Earth observation from space: It is well known that usage of the global space-based information helps to monitor either fast-moving (fires, flooding) or slow-moving processes (deforestation and burnings overgrowing, desertification), covering vast areas. Monitoring can be described as a complex system of observation for keeping the state of the environment under review, making estimates and projections of changes in its state under the influence of natural and anthropogenic factors. The use of space materials for monitoring is reduced to the comparison of multi-temporal data for identifying both short-period and multi-year changes. The effectiveness of the monitoring system depends on the equipment measuring parameters and data processing algorithms.Satellite monitoring allows controlling the state of the atmosphere, detecting technogenic emissions, hazardous processes and natural phenomena that are sources of emergency situations in order to meet the challenges of warning and organizing disaster response.. Sneak Peek #8 - Pumpjack: A pumpjack is the overground drive for a reciprocating piston pump in an oil well. It's used in the oil-producing industry to drill wells up to 4,000 meters deep.A typical installation may have a length of 7 m, and a width of about 2-2.5 m. The mass usually exceeds 10 tons. The general principle of the operation of the equipment is similar to the function of a syringe, which in this case is provided by sucker-rod pumps. Also, as an indispensable element, the pumpjack is equipped with columns of compression tubes. Through these channels the lifting and transmission of oil is realized.The pumpjacks operate in a circular-based way, allowing the oil to concentrate around the well to ensure efficient pumping. In addition, this principle of maintenance minimises deterioration of the parts of a drive.Operators control the lifting of oil, and technical staff also monitor the operating performance of the mechanisms in terms of maintaining their function within peak-load tolerances. The most common pumpjack in the pump-drive operations is designed for pile-supported mining. With the help of this unit, wells can be drilled in permafrost environments.. Sneak Peek #20 - Space radiation and ways of protecting from it: Radiation is one of the main negative biological factors of outer space. There are two types of radiation that poses potential threats: solar flares cosmic rays. Solar flares are rather powerful radioactive impulses capable of killing in a very short time. Cosmic rays are a set of various particles that have a high linear energy transfer, because of what they are called densely ionizing radiation.In today's strategy for improving human radioresistance, there are the following areas:. Sneak Peek #16 - The colonization of the Moon: The colonization of the Moon is one of the main strategic goals of astronautics.The lunar base is a unique place for maintaining scientific experiments in the field of planetology, astronomy, cosmology, space biology, and other disciplines. The study of the lunar crust is vital for tracing both the evolutionary history of the solar system and the emergence of life. The absence of the atmosphere allows building optical and radio telescopes on the lunar surface, which are able to get much more detailed images than with using terrestrial telescopes.An important reason for the colonization of the Moon is also the presence of minerals on it, the reserves of which are coming to an end on the Earth (helium-3) or the delivery of which to the orbit is too expensive (iron, aluminum, titanium). On the Moon there are deposits of water ice - a source of water, oxygen, hydrogen. In some cases, it is easier to use lunar material than to deliver it from Earth.According to the experts' assessments, the Moon contains at least 1 million tons of helium-3, which will fully provide the thermonuclear energy of mankind for a period of more than 1000 years. Today it takes approximately 30 tons of helium-3 to supply the entire population of the Earth for a year. The extraction of helium-3 and the change-over to thermonuclear energy is especially important, given the fact that the hydrocarbons reserves on Earth will dry up in about 50-90 years.The deep vacuum and the availability of cheap solar energy open up new horizons for electronics, metallurgy, metalworking and materials science. In fact, the conditions for the processing of metals and the creation of microelectronic devices on Earth are less favorable because of the large amount of free oxygen in the atmosphere, which deteriorates the quality of casting and welding, making it impossible to produce ultra-pure alloys and chip substrates at huge volumes.Due to its impressive landscapes and exoticism, the Moon will most likely be a viable space tourist destinations, which can attract a significant amount of funds for its development, contribute to the popularization of space travelling, encourage many people to study the lunar surface. Space tourism will require certain infrastructure solutions. Infrastructure development, in turn, will contribute to a more extensive lunar penetration.. Sneak Peek #21 - Tardigrade: radiation resistance secret: In 2007, a little-known creature called the Tardigrade became the first terrestrial organism that survived in open space. This research was conducted aboard the Foton-M3 satellite, the launch of which was sponsored by the European Space Agency. The purpose of the experiment was to find out how terrestrial organisms endure the extreme conditions of cosmic radiation at the molecular level. The result exceeded all expectations: the Tardigrade endured the short-term effects of extremely low temperatures, cosmic radiation and an almost complete vacuum.Tardigrades (lat. Tardigrada) are widespread throughout the Earth, they could be found in the sea, freshwater ponds and on land. Their body is less than 1 mm long and they look like bears, although biologically they are very primitive organisms.Over millions of years of evolution, the Tardigrades have learned to hibernate in adverse conditions, when almost all the functions of their vital activity are suspended. This condition is called cryptobiosis. It is believed that this ability allows Tardigrades to survive in outer space.X-ray resistance is a side effect of the Tardigrades adaptation to dehydration. According to scientists, severe dehydration causes damage to living organisms at the molecular level, it can even break the DNA chain, as X-rays do. Scientists began exploring the capabilities of the Tardigrade using the genome sequencing of the Ramazzottius varieornatus Tardigrades species, whose cells are particularly resistant to external influences. As a result, it was found that a protein known as Dsup prevents the destruction of the DNA. It allows the Tardigrade to get through dehydration and radiation. Scientists have also found that human cells with the Tardigrade DNA elements can reduce the damage from x-rays by about 40%. Thus, on the basis of research, it is possible to develop mechanisms for protecting people from X-rays while undergoing treatment or under extreme conditions, including a long space flight.The study of Tardigrades is actively continues. Scientists believe that the Tardigrade is the key to understanding of how earth life in general adapts to the conditions of a long stay in outer space.. Sneak Peek #14 - Lunar-orbit space station: The biggest step of the Moon as well as near-lunar space exploration program is the construction of a moon-orbiting space station, brought within a few thousand kilometers of the lunar surface. It is intended to serve as a solar-powered communications hub, science laboratory, short-term habitation module, and holding area for rovers and other robots. With its help, mankind will be able to colonize the Moon and launch flights to other planets, such as Mars.The station will have four main modules: habitat module, the module to generate electricity, modules that'll help to control the whole station and conduct experiments, and also docking and spacewalks modules. The technologies needed to develop not only the Moon, but also deep space, will be tested on board the station. In particular, it will provide an opportunity to explore the lunar surface using the lunar rovers and landing stations.