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Mohammad Sameti published an article in December 2017.
Distribution of Articles published per year
(2009 - 2017)
(2009 - 2017)
Total number of journals
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Article 2 Reads 2 Citations A two-level multi-objective optimization for simultaneous design and scheduling of a district energy system Published: 01 December 2017
Applied Energy, doi: 10.1016/j.apenergy.2017.09.046
Article 2 Reads 1 Citation Prediction of solar Stirling power generation in smart grid by GA-ANN model Published: 01 January 2017
International Journal of Computer Applications in Technology, doi: 10.1504/IJCAT.2017.082860
Article 1 Read 4 Citations Thermodynamic study and performance simulation of a renewable-based Kalina cycle in distributed generation Published: 02 December 2016
International Journal of Modelling and Simulation, doi: 10.1080/02286203.2016.1255025
Article 1 Read 0 Citations Thermodynamic optimisation of irreversible refrigerators base on NSGAII Published: 01 January 2015
International Journal of Renewable Energy Technology, doi: 10.1504/ijret.2015.070151
CONFERENCE-ARTICLE 2 Reads 0 Citations Optimum Annual Electricity Cost Through On-Site Renewable Energy Generation and V2H Technology Published: 03 November 2014
The 4th World Sustainability Forum, doi: 10.3390/wsf-4-e015
The electrical energy stored in the batteries of plug-in electric vehicles can be utilized in intelligent house systems to proactively manage electricity energy consumption and costs. The vehicle-to-home (V2H) technology has the potential to provide storage capacity to lower homes' energy costs and provide reliable backup systems in emergency periods. In this paper, the annual cost effects of integrating the electric plug-in vehicles into a hybrid solar PV/wind turbines driven residential district with 10 houses are investigated. These houses are located in Kentucky where both real residential electricity consumption and meteorological data are available. The effects of number of turbines, PV panels and storage capacity on the annual cost reduction were also analyzed. The results showed that for a hybrid system comprising of ten 2kW wind turbines and a 3kW PV array, the V2H technology can save more than 60% of the annual electricity cost.
CONFERENCE-ARTICLE 4 Reads 0 Citations Green Power through a Modulated Single-Pool Tidal Energy System Published: 31 October 2014
Proceedings of The 4th World Sustainability Forum, doi: 10.3390/wsf-4-d001
Renewable energy systems have much lower environmental impact than conventional energy technologies. Tidal energy is one of the most important forms of renewables which carry the electricity production capacity within its height differences and current flow. In this paper, a time-dependent mathematical model for green energy generation from a single-pool tidal system is developed. Using current model with available tidal data, the extracted energy from this system can be calculated. Model results have shown that such system has the capacity of producing 40.6 Megawatts electricity from tidal energy for a specific area.