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5. The intelligent forecasting of the performances in PV/T collectors based on soft computing method

Author

Nima Izadyar, Wen Tong Chong, Juwel Chandra Mojumder, Hwai Chyuan Ong, and Shahaboddin Shamshirband

Subjects
Soft computing, Engineering, Thermal efficiency, Artificial neural network, Renewable Energy, Sustainability and the Environment, business.industry, 020209 energy, Genetic programming, 02 engineering and technology, Solar energy, Solar gain, 0202 electrical engineering, electronic engineering, information engineering, business, Electrical efficiency, Simulation, Extreme learning machine
Abstract

Solar energy has been widely used in various aspects as the greatest promising and pollution free energy comparing with other available resources in nature. Photovoltaic-thermal (PV/T) is the most generative technology, which has been invented to utilize electrical energy and heat from the solar system. The article presents a novelty of using Extreme Learning Machine (ELM) into the air type PV/T technology. For this purposes, two air type PV/T designs were fabricated and practiced for a cooling fin design in the collector and finally, collected the experimental data, which was adapted to estimate electrical and thermal efficiency for the PV/T system. Then, the results of ELM prediction model were compared with Genetic Programming (GP) and Artificial Neural Networks (ANNs) models. The experimental result was accommodated to improving the predictive accuracy of the ELM approach in comparison. Further, outcome results indicate that developed ELM models can be used satisfactorily to formulate the predictive algorithm for PV/T performances. The ELM algorithm made a good generalization, which can learn very faster comparing with other conventional popular learning algorithms. The results revealed that the improved ELM model is a well fitted tool to predict the thermal and electrical efficiency with higher accuracy.

Published
2017
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6. Investigation of potential hybrid renewable energy at various rural areas in Malaysia

Author

Juwel Chandra Mojumder, Nima Izadyar, Wen Tong Chong, K.Y. Leong, and Hwai Chyuan Ong

Subjects
Daily pattern, Engineering, Renewable Energy, Sustainability and the Environment, business.industry, 020209 energy, Strategy and Management, Photovoltaic system, Homer software, 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, Net present value, Civil engineering, Industrial and Manufacturing Engineering, Renewable energy, Environmental protection, 0202 electrical engineering, electronic engineering, information engineering, Electricity, Rural area, business, Hydropower, 0105 earth and related environmental sciences, General Environmental Science
Abstract

Feasibility study of the renewable energy resources is usually employed as a primary step in the design of Hybrid Renewable Energy System (HRES), to highlight the most potential sources and the best combinations obtained by using HOMER software. Thus, the main objective of this study is to identify the potential areas in Malaysia utilize solar, the wind and Micro Hydropower (MHP) sources. For this purpose, the results of a study accomplished by Ibrahim Hussein in 2010 are considered to obtain sites with the greatest hydropower potential in Malaysia. Then, a renewable energy resource assessment for these sites was performed to identify the sites that have the greatest solar, wind and hydropower potentials based on total Net Present Cost (NPC) comparison. Based on the historical data, a daily pattern emerged in electricity consumption among rural residents in Malaysia. The results of this study indicate Langkawi is the most potential region for the solar/wind combination by the significant difference with other regions (total NPC of 696,083 USD). After Langkawi, Tioman Islands has the second rank (total NPC of 818,931 USD), while villages in Tioman are the most appropriate sites for installing hybrid renewable energy system with the current specifications. In terms of the premiered locations for solar and hydropower potential, four sites at Lawas in Sarawak and Ranau in Sabah were identified as the greatest potential (total NPC of 354,000 USD). These findings demonstrate that Tioman Islands and Malaysian Borneo Island (Sabah and Sarawak) can be considered as the most attractive regions for the solar/wind/MHP and solar/MHP, respectively.

Published
2016
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7. An experimental investigation on performance analysis of air type photovoltaic thermal collector system integrated with cooling fins design

Author

K.Y. Leong, Hwai Chyuan Ong, Wen Tong Chong, Abdullah-Al-Mamoon, and Juwel Chandra Mojumder

Subjects
Engineering, Thermal efficiency, Fin, business.industry, 020209 energy, Mechanical Engineering, Nuclear engineering, Mass flow, Photovoltaic system, Thermodynamics, 02 engineering and technology, Building and Construction, 021001 nanoscience & nanotechnology, Photovoltaic thermal hybrid solar collector, Solar gain, Thermal, 0202 electrical engineering, electronic engineering, information engineering, Mass flow rate, Electrical and Electronic Engineering, 0210 nano-technology, business, Civil and Structural Engineering
Abstract

Photovoltaic thermal (PV/T) system was introduced to meet the thermal and electrical energy. The heat removal by air or water prevents the deterioration of the PV cell efficiency due to the overheating of cells. In this study, an air type single pass PV/T collector system was proposed where a number of thin rectangular fins were introduced for heat dissipation. The collector’s performance was analyzed with a fin system that was integrated by a thin flat metallic sheet (TFMS). Then, the temperature parameters were measured and compared to several operating conditions and configurations. Analytical expression was derived from the energy balance equations for each component of the design. Average temperatures from the top/rear PV surfaces, the collector back wall surface and the collector inlet/outlet temperatures were experimentally recorded under different fin numbers (0–4), mass flow rates (0.02 kg/s–0.14 kg/s) and solar radiations (200 W/m2–700 W/m2). These readings were used in calculating the thermal and electrical efficiency of the proposed PV/T system. The maximum thermal efficiency and PV efficiency were obtained about 56.19% and 13.75% respectively for four fins at 0.14 kg/s of mass flow rate and 700 W/m2 of solar radiation. Besides, the root mean square percentages of deviation (e) and coefficient of correlation (r) were used to validate the result while also discussing the uncertainty values. This research will be helpful to design thermal collectors and provide valuable information regarding performance improvement methods in PV/T systems.

Published
2016
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8. Performance assessment of a hybrid solar-wind-rain eco-roof system for buildings

Author

Kok Hoe Wong, Lip Huat Saw, Sai Hin Lai, Wen Tong Chong, Xiao Hang Wang, Juwel Chandra Mojumder, and S.C. Poh

Subjects
Engineering, Meteorology, business.industry, 020209 energy, Mechanical Engineering, Photovoltaic system, Natural ventilation, 02 engineering and technology, Building and Construction, 010501 environmental sciences, Skylight, 01 natural sciences, Turbine, Wind speed, law.invention, Rainwater harvesting, law, Ventilation (architecture), 0202 electrical engineering, electronic engineering, information engineering, Electrical and Electronic Engineering, business, Roof, 0105 earth and related environmental sciences, Civil and Structural Engineering
Abstract

A technical feasibility study of an innovative hybrid solar-wind-rain eco-roof system with natural ventilation and skylight for electrical energy generation and saving is presented in this paper. The system integrates and optimizes five green technologies: wind turbine, solar photovoltaic system, rain water harvesting and utilization system, natural ventilation and roof sky lighting. The design was conceptualized based on the experiences acquired from meteorological data for Malaysian application. The V-shape top roof which was designed above the wind turbine was able to increase the wind speed by the venturi effect before the wind interacts with the wind turbine located between the roofs, hence improve the performance of the wind turbine. An automatic cooling and cleaning system with a stream of water was designed to clean and cool the roof which can improve the electrical efficiency of the solar photovoltaic modules. The ventilation vents of the system allow warm air inside the building to be ventilated out from the building by the pressure difference caused by high speed wind due to the roof design. The skylighting in the system improve the living comfort level and reduce power consumption of artificial lighting. Technical assessment of the system showed the estimated annual energy generated was 21205.65 kWh, estimated energy savings was 1839.6 kWh, the estimated annual ventilation rate was 2.17 × 108 m3 and reduction of CO2 emissions was 17767.89 kg/yr.

Published
2016
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9. Sensitivity analysis of heat transfer rate for smart roof design by adaptive neuro-fuzzy technique

Author

Juwel Chandra Mojumder, Abdullah Al-Mamoon, Wen Tong Chong, S.C. Poh, Shahaboddin Shamshirband, and Lip Huat Saw

Subjects
Adaptive neuro fuzzy inference system, Engineering, Neuro-fuzzy, business.industry, 020209 energy, Mechanical Engineering, Thermal comfort, 02 engineering and technology, Building and Construction, Attic, Structural engineering, Automotive engineering, Solar gain, Heat transfer, 0202 electrical engineering, electronic engineering, information engineering, Mass flow rate, 020201 artificial intelligence & image processing, Electrical and Electronic Engineering, business, Roof, Civil and Structural Engineering
Abstract

Thermal comfort in the building is a major concern among the design expertise especially in tropical countries. Therefore, it is important to design a smart roof system to reduce the heat gain of the building and enhance the resident's thermal comfort. The leading feature of this system is using PVC tubes integrated with a layer of insulation material and fans and located at the underside of the roof to act as a moving-air path (MAP) system. Indoor experiment is carried out on the scale roof model and the heat transfer rate into the attic is determined using experimental data. Next, Adaptive Neuro Fuzzy Inference System (ANFIS) is applied as a soft-computing method determine the predominant variables that affecting the thermal comfort in the building. Training and testing data of the ANFIS model are collected from the experimental measurement. Mass flow rate, solar-air temperature, inlet air temperature, outlet air temperature and ambient temperature are the input parameters used to compute the output parameter which is the attic temperature. The results indicated that the combination of mass flow rate and ambient temperature is the primary factor and the best predictor accuracy for thermal comfort in the building.

Published
2016
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10. Application of support vector machine for prediction of electrical and thermal performance in PV/T system

Author

Shahaboddin Shamshirband, Abdullah-Al-Mamoon, Hwai Chyuan Ong, Wen Tong Chong, and Juwel Chandra Mojumder

Subjects
Engineering, business.industry, 020209 energy, Mechanical Engineering, Photovoltaic system, 02 engineering and technology, Building and Construction, Heat sink, Solar energy, Support vector machine, Control theory, 0202 electrical engineering, electronic engineering, information engineering, Performance prediction, Sensitivity (control systems), Solar simulator, Electrical and Electronic Engineering, business, Electrical efficiency, Civil and Structural Engineering
Abstract

In photovoltaic–thermal (PV/T) system analysis, solar collectors with numerous design concepts have been used to purvey the thermal and electrical energy effectively. In this study, two types of solar thermal collectors in PV/T system are proposed and fabricated called design A and design B respectively. In order to investigate the effects of collector type on the system performance a thin flat metallic sheet (TFMS) and fins were introduced as an effective heat absorber and heat sink in the collectors. Extensive experiments were carried out for different conditions under indoor solar simulator. Then PV/T thermal and electrical efficiency were calculated by using data obtained from experiments. Here, support vector machine (SVM) model is designed to estimate the thermal and electrical output which predicts the values for some input variables. For this purpose, three SVM models namely SVM coupled with the discrete wavelet transform (SVM-Wavelet), the firefly algorithm (SVM-FFA) and with using the radial basis function (SVM-RBF) were analyzed. The estimation and prediction results of these models were compared with each other using statistical indicators i.e. root means square error, coefficient of determination and Pearson coefficient. The experimental results show that a significant improvement in predictive accuracy and capability of generalization can be achieved by the SVM-Wavelet approach. Moreover, the results indicate that proposed SVM-Wavelet model can adequately predict the electrical and thermal efficiencies of PV/T system. In the final analysis, a proper sensitivity analysis is performed to identify the influence of considered input elements on performance prediction of PV/T system.

Published
2016
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12. An empirical analysis on photovoltaic thermal system with fin design by forced air circulation

Author

Wen Tong Chong, K.Y. Leong, Juwel Chandra Mojumder, Nima Izadyar, and Hwai Chyuan Ong

Subjects
Air cooling, Engineering, Fin, business.industry, 020209 energy, Mechanical Engineering, Photovoltaic system, Thermodynamics, 02 engineering and technology, Mechanics, Thermal conduction, Solar irradiance, Photovoltaic thermal hybrid solar collector, Mechanics of Materials, Solar gain, 0202 electrical engineering, electronic engineering, information engineering, Forced-air, business
Abstract

Air cooling photovoltaic can be configured as a method to improve the performance of Photovoltaic thermal (PV/T) system. In this article, a series of aluminum rectangular fins were considered as an important augmented medium of heat conduction and convection. The efficiency of the installed fins was obtained by analysis of the general algebraic modeling system, which was validated for different fin heights and thicknesses. Fins were incorporated in reducing the cell temperature that obtained a higher outlet temperature of PV/T with time. It was observed that the collector outlet air temperatures, PV cell temperatures for different air flows and solar radiations under the different fin geometries in an indoor experimental condition. The output PV/T power was compared between ‘with fin’ and ‘without fin’ condition. The optimum interrupted length and height of a fin makes a compact relationship for the thermal and electrical performance. Results showed that the heat gain has been increased with the increasing of the solar irradiance at a constant air velocity. The collector heat gain value was found about 159.8W at 700 W/m2 solar radiation with four fins design.

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