International Journal of Renewable Energy Research-IJRER

The outcome of this research was the development of a parameterisation of the thermal inconsistencies associated with the implementation of water heating and underfloor heating systems in domestic settings. The objective of this research is to investigate the use of solar energy to construct a thermal system for heating and domestic hot water for residential buildings based on the use of solar energy as the main energy source.  The purpose of this study is not to conduct an experiment but to conduct an exploratory study.  This study has a number of major results, including the fact that it uses data from climate measurements up to the year 2023 as a reference, It is possible that the simulated information has variations; T*Sol 2023 software was used for the optimisation and calculation of solar systems.  Based on the use of thermal transmission technology and in order to calculate the performance of domestic hot water heating and heating support equipment. The average seasonal performance of heating systems in buildings can be calculated by using standards and methods.

B. Manjola, and J. Martin “An Analysis of Capacity Market Mechanism for Solar Photovoltaics in France,” ijSmartGrid, vol.3, pp.10-18, 2019.

R.J.J. Molu, N.S.R. Dzonde, W.Patrice, M.W.Fendz?, and T.S.Kenfack, “Solar Irrad

iance Forecasting Based on Deep Learning for Sustainable Electrical Energy in Cameroon,” ijSmartGrid, vol.7, pp.61-68, 2023.

E.O.Kenneth, A.N.Husam, and A.Ahmed, “Prospects of Solar Energy in Oman: Case of Oil and Gas Industries,” ijSmartGrid, vol.3, pp.168-151, 2019

K.A.Marian, U.Roland, N.Nkolika, S.Ekene, M.bonu, and E.O.Kenneth, “Investigation of the Impact of Soot on the Efficiency of Solar Panels using a Smart Intelligent Monitoring System,” ijSmartGrid, vol.7, pp.01-14, 2023.

A.Bankole, O.Ayodele, A.Samson, F.Taiwo, A.Adewale, and O.Chukwuemeka, “Economic and Environmental Sustainability Assessment of Solar Photovoltaic Technology in Nigeria: Rural Electrification Perspective,” ijSmartGrid, vol.7, PP.121-127 June, 2023

M. Kamruzzaman and M. A. Abedin, “Optimization of Solar Cells with Various Shaped Surficial Nanostructures,” ijSmartGrid, vol.7, pp.113-118, 2023.

M.O.Ifedayo, M.A.Taiwo, and E.L.Adedayo, “Optimal Sizing of Hybrid Renewable Energy System for Off-Grid Electrification: A Case Study of University of Ibadan Abdusalam Abubakar Post Graduate Hall of Residence,” ijSmartGrid, vol.4, pp.176-189, 2020

M. Mujahid Rafique, “Design and Economic Evaluation of a Solar Household Electrification System,” ijSmartGrid, vol. 2, pp.135-141, 2018.

E.Pouya, J.Sajjad, H.Ali, S.V.Mohammad, and R.Saman, “ A review on solar-powered cooling systems coupled with parabolic dish collector and linear Fresnel reflector,” Environmental Science and Pollution Research, vol.29, pp. 42616–42646, 2022.

M.A.Suhaib, E.K.Atia, and H.A.H.Abdul, “Theoretical Investigation into the Dynamic Performance of a Solar-Powered Multistage Water Gap Membrane Distillation System,” Arabian Journal for Science and Engineering, vol. 48, pp. 12499–12511,2023.

E.Pouya, J.Sajjad, H. Ali, S.V. Mohammad, and R.Saman, “A review on solar-powered cooling systems coupled with parabolic dish collector and linear Fresnel reflector,” Environmental Science and Pollution Research, vol.29, pp.42616–42646, 2022.

L.Fenghua, L.Yijian, Z.Binyuan, B.Robert, W.Weiping, “Photothermal materials for efficient solar-powered steam generation,” Front. Chem. Sci. Eng., vol.13, pp.636–653, 2019.

Z.Fei, G.Youhong, Z.Xingyi, S.Wen, and Y.Guihua, “Materials for solar-powered water evaporation” Nature Reviews Materials, vol.5, pp. 388–401, 2020.