Hybrid energy optimization: An ultimate solution to the power crisis of St. Martin Island, Bangladesh

Mazumder, Prasenjit; Jamil, Md. Haibul; Das, C. K.; Matin, M. A.

doi:10.1109/ifost.2014.6991141

Cited by 21 publications

(14 citation statements)

References 3 publications

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“…For the production of 1kW electricity from biomass, USD 1200 is needed including plant cost and generation cost, i.e. about BDT 96000 is required per kW [2]. An installation cost of 10% has also been considered.…”

Section: Biogas Generatormentioning

confidence: 99%

“…The proposed system can be a model for remote and rural areas of Bangladesh paving way for renewable energy reaching 10% of total energy production by 2020 as envisioned by the Renewable Energy Policy of Bangladesh. Some studies have been done previously in Bangladesh for areas like Sandip-para, St. Martin's Island [1], [2], [3]. Studies have also been done for Bangladesh as a whole or for hypothetical model [4], [5].…”

Section: Introductionmentioning

confidence: 99%

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A pre-feasibility study for electrification in Nijhum Dwip using hybrid renewable technology

Hossain

Barua

Matin

2015

2015 International Conference on Electrical &Amp; Electronic Engineering (ICEEE)

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Electricity being an integral part of modern age technology, is an imperative element for sustainable development. Using fossil fuel for the generation of electricity has been the norm but alarming reasons such as depletion of fossil fuel at an increased pace and their tremendous negative impact on environment have led to growing interest in using renewable resources for generating electricity which can ensure the fulfilment of energy demand both for us and our posterity. This paper has done a pre-feasibility study on a hybrid renewable power system in Nijhum Dwip of Bangladesh which is a detached island from national grid system. The prospect of Solar, Wind and Biomass as renewable components of a hybrid system has been explored with the inclusion of a diesel generator to compare the renewable vs. conventional system both economically and environmentally. Using HOMER the most efficient system was found to have an electricity generation cost of almost BDT 20/kWh for an average load of 5.5 MWh/day with a 950 kW peak. An assessment visit to the island contributed towards load calculation. An emission reduction of almost 3422 ton CO 2 by replacing an equivalent diesel based plant with the optimized system is possible to be accomplished.

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Section: Biogas Generatormentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

A pre-feasibility study for electrification in Nijhum Dwip using hybrid renewable technology

Hossain

Barua

Matin

2015

2015 International Conference on Electrical &Amp; Electronic Engineering (ICEEE)

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“…However, there is great optimism due to many dairy and poultry farms and available farming lands in the neighboring areas (e.g., Shahporir dwip, Teknaf, Ukhia). Biomass resources can be gathered and produced, and transported then to the power generation station in St. Martin's island [30]. Researchers have investigated the overall power demand in Bangladesh and found that renewable energy might be the possible alternative to conventional fossil fuels for boosting the power demand and energy sustainability [31].…”

Section: Present Scenariomentioning

confidence: 99%

Optimization of Solar, Wind and Biomass-Based Hybrid Renewable Energy System in St. Martin's Island, Bangladesh

Avi¹,

Fayaz²,

Saha³

et al. 2021

Proceedings of International Exchange and Innovation Conference on Engineering &Amp; Sciences (IEICES)

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Hybrid renewable energy system (HRES) is an evolving power generation strategy that requires a combination of various energy resources and is common in modern pursuits. Allowing features, such as low CO2 emissions, less environmentally damaging possibilities than traditional power generation techniques, and mostly unlimited power resources give more flexibility. Along with connecting these HRES power plants with the national grid for the addition of more power generation, electrification of remote areas is possible with stand-alone power plants. The proposed research model is a quantitative study on the potentiality of renewable sources in St. Martin's Island, a geographically important location of Bangladesh. This work incorporates solar, wind, and biomass sources in the HRES system, which is a relatively new concept when compared with other HRES strategies with a levelized cost of $0.18. An enhanced HRES model is proposed considering different constraints revealing a new possibility of power generation on that island.

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“…For a given distribution network, optimization techniques are able to indicate the optimal solution. In the distribution power system, there are numerous techniques to assign and size the DG [19]. At each load bus, the power flow approach can be exploited to discover the optimum DG size by presumptuous each load bus is capable to have a DG unit [14] [15].…”

Section: Introductionmentioning

confidence: 99%

Optimal Sizing and Siting of Distributed Generators by Hybrid Particle Swarm Optimization-Grey Wolf Optimization Algorithm

Vijayan¹

2020

JCMPS

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In operation of the power system, minimization in loss of the power for Distributed System has implication in minimization of cost of operation. In this work, a new Hybrid Particle Swarm Optimization (PSO), and the Grey Wolf Optimization (GWO) technique, is examined in order to determine the optimal sizing, location, and quantity of Distributed Generators units in Distributed System. The aim of optimal positioning of the Distributed Generators issue is to reduce the loss of power in Distributed System because to experience the restraints like current limits, balance in power, Distributed Generators capacity limits, bus voltage limits, and Distributed Generators penetration limit. In order to solve the issue, the hybrid PSO-GWO algorithm is examined to concurrently discover the optimal sizing and siting of Distributed Generators units. Additionally, the optimal amount of Distributed Generators units can be attained through evaluating optimal consequences from various Distributed Generators in the issue. Finally, the developed approach is examined on the IEEE 33-bus, 69-bus, bus, and 118-bus Radial Distributed System (RDS). The consequence evaluations show that the developed approach can attain superior quality solutions than the conventional approaches for the represented scenarios for the test systems. Furthermore, the hybridization of the proposed method consents to accomplish the search procedure at superior speeds. Hence, the proposed technique is a capable technique in order to solve the issue of the optimal position of Distributed Generators units in Distributed System.

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Hybrid energy optimization: An ultimate solution to the power crisis of St. Martin Island, Bangladesh

Cited by 21 publications

References 3 publications

A pre-feasibility study for electrification in Nijhum Dwip using hybrid renewable technology

A pre-feasibility study for electrification in Nijhum Dwip using hybrid renewable technology

Optimization of Solar, Wind and Biomass-Based Hybrid Renewable Energy System in St. Martin's Island, Bangladesh

Optimal Sizing and Siting of Distributed Generators by Hybrid Particle Swarm Optimization-Grey Wolf Optimization Algorithm

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