![]() ![]() The article discusses the amount of carbon dioxide (CO2) and nitrogen oxides (NOX), that can be reduced by using a hybrid power system (solar and wind) in conjunction with a battery storage system (BSS – lithium-ion batteries) in single-family houses. The HOMER Pro software was used to model and explore the long-term continuous implementation of a hybrid power system and greenhouse (GHG) gas emissions investigation. Proposed hybrid system is designed and actually implemented to power a single-family house and consists of wind turbine (WG) photovoltaics (PV), lithium-ion batteries for energy storage and suitable converter. A comparison is made between hybrid power systems, operating on Bulgarian territory and conventional (traditional) power systems. Within this framework, this study presents the possibilities for real-world application of renewable energy sources (RES) in urban areas, as well as their contribution to the urban deployment of the new energy paradigm. The four modules above touch upon basic concepts of using HOMER for designing renewable power solution for telecom applications.It is widely known that cities now house more than half of the world’s population. At the end of this module, the use will be able to develop a business case for the renewable solution to understand its feasibility vis-à-vis a base case scenario such as diesel based solution. The module uses a excel sheet to demonstrate the business case of the renewable energy solution comparing it with the base case of diesel based solution. Module 4 – Business Case Analysis, focuses on analysing the financial feasibility of the solution designed and selected in previous modules. At the end of this module, the user will be able to analyse and select an optimum renewable solution for the site. It also looks at the technical output of a solution to explain in detail each element of the power system. Module 3 – Solution analysis and Selection, takes a deeper look into the simulation output of HOMER and explains the various parameters as part of solution selection. At the end of this module, the use will be able to define the power system and run simulation for design output. The module also explains the data inputs required to complete the power system definition in order to run the design simulation. ![]() Module 2 – Green Power design using HOMER Software, introduces HOMER software and walks you through the step-by-step process of using the software for designing a renewable power solution for a telecom site. The module also details the various energy efficiency technics to optimize the load requirement of a particular telecom site in order to prepare a site for green power design and deployment. ![]() Module 1 – Site Selection and Energy Optimization, focuses on the key parameters to consider while selecting a telecom site for green power design and deployment. The training is divided into four modules each focusing on a specific aspect of renewable energy solution design for telecom sites. ![]() This is very useful for MNOs and Tower Companies to understand the key design elements to optimize green power design and thereby optimize CAPEX required for deploying green power on their network. The video training on HOMER focuses on the key aspects of using HOMER Software for designing and analysing renewable energy solutions for telecom tower sites. The tool is adopted by GPM for designing and analysing the feasibility of renewable energy for telecom sites. The Green Power for Mobile (GPM) team is pleased to announce the launch of an online video training on HOMER, a renewable energy design tool developed by the National Renewable Energy Laboratory (NREL) in the United States. ![]()
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