Energy Solution
SHARETECH develops new integrated power solutions including solar, hydropower, biomass, biofuels, hybrid and heat-waste recovery by ORC 
Solar power
Most renewable energy comes either directly or indirectly from the sun. Sunlight, or solar energy, can be used directly for heating and lighting homes and other buildings, for generating electricity, and for hot water heating, solar cooling, and a variety of commercial and industrial uses
Biomass
Along with the rain and snow, sunlight causes plants to grow. The organic matter that makes up those plants is known as biomass. Biomass can be used to produce electricity, transportation fuels, or chemicals. The use of biomass for any of these purposes is called biomass energy
Wind
The sun's heat also drives the winds, whose energy is captured with wind turbines. The Earth's rotation also contributes to the winds, particularly through the Coriolis effect
Waste heat recovery
Products are used to convert low-to-medium heat to generate electricity from a variety of sources including industrial waste heat, reciprocating engines, incinerators, oil and gas fields, geothermal, solar heat, biomass, ocean thermal energy conversion (OTEC), etc
Hydropower
Flowing water creates energy that can be captured and turned into electricity. This is called hydroelectric power or hydropower
Innovative Technology
The development of artificial intelligence has established one of the foundation for a new industrial revolution of this century. This also helps human address the issues of global warming and climate changes through optimizing the energy we use on every daily life activities and production process. At SHARETECH, we investigate on the optimal solutions of saving energy, robotic controls, and human-machine interaction with up-to- date advances in artificial intelligence.
Optimal Controls
Saving energy is now the key development for any industrial system with the main aim not only to minimize the side effects of the system on environment but also to increase economic values of the system. We address optimal controls for saving energy problem by simulation, analysis and artificial intelligence to search for optimal solution in high dimensional and complex data.
Intelligent Machines
Over years, the development of artificial intelligence has shown off more and more significant achievements. Intelligent machine and autonomous robots are now able to replace human in many complicated tasks as well as to interact with human in a shared working space yet without causing any catastrophic effects on human and surrounding environment. We apply data- driven approaches to teach intelligent machine with big data and deep-learning process. We believe that our data-driven system is more robust and easily customized for different requirement of industrial needs and requirements
Human-Machine Interaction
We investigate on the latest development of virtual reality (VR), augmented reality (AR), and mixed reality (MR) to create new interfaces to control, interact with industrial system with the main goal to create immersive interactions and reduce the risks to operators working on heavy industrial machine.
Environment Solutions
Water Treatment
The solutions are biological treatment combined with physico-chemical treatment including: Anaerobic treatment for high pollutant concentrations, aerobic treatment, constructed wetlands. These solutions are designed to reach the effluent standard before going to the environment, Integrated IoT and solar technology to optimize the treatment process.
Activated Sludge
Activated sludge used in treatment facilities has outstanding properties for the treatment of pollutants in wastewater. Activated sludge is used to treat some types of waste water (domestic waste water, Wastewater from vermicelli produce, hospital wastewater ...) and achieved good results.
Water purification
The solution for water treatment is to use filter, RO to treat the pollutants in water such as As, Cd, pemangannat ... to ensure the best quality for users.
Solid waste treatment
Nowadays, one of the solutions for solid waste disposal is the burning method. Mini-fired furnace for 5-6 tons per day applies the controling and supplying oxygen technology for combustion. This technology is controlled by opening and closing the wind gates. The amount of heat that maintains the combustion in the furnace is the result of the burning itself. The combustion process takes advantage of the amount of thermal radiation, the heat generated during the chemical reaction that decomposes solid waste without using any energy source.
Exhaust gas treatment
Focusing on some of the dust bag and cyclone solutions, some nanomaterials for toxic gas treatment of factory plants