An Innovative Method for Forecasting Oil and Gas Deposits: the Development of Software Modules
Development of appropriate heating and cooling devices for the decentralised energetic use of waste biomass from agriculture and forestry in central and eastern europe.
To develop high power (over 250 kw) high temperature (up to 80 celsius) heat pump for industrial exploitation of low temperature (up to 40 celsius) geothermal sources.
Study and development of innovative modular units for an efficient and sustainable collecting and use of solar radiation. Study and development of a production process (innovative automated production, assembly and testing systems).
The project is aiming at developing environment prompt, easy to access and transparent to use energy efficiency monitoring system used for energy consumption and efficiency monitoring.
The project deals with optimisation of forming processes for sheet metal part production. Decrease of used energy and minimisation of environmental burdening are main objectives achieved by process design, material optimisation, increased adaptability of the tooling, and tribological conditions.
With this project we will develop a geothermal gravity heat pipe for the exploitation of geothermal energy from unproductive wells 3,000 meters deep and at a temperature of 155 degrees celsius.
To develop an efficient technology and equipment which is suitable to small farms for economical production of bio-ethanol fuel for own need including production of electrical energy and for sales of surplus to local/regional distributors, industries, farmers, etc.
Espal's goal is to achieve significant energy savings during the production of al-alloys billets and ingots by use of dc casting method in combination with electromagnetic field while improving the technological properties of alloys obtained by modifying their structure.
The main purpose of the project is to produce energy-saving led dwl lighting based on led technology.