https://www.mohcinedraou.com/project/ProjectsHugo Blox Builder (https://hugoblox.com)en-usSat, 01 Feb 2025 00:00:00 +0000https://www.mohcinedraou.com/media/icon_hu_645fa481986063ef.pnghttps://www.mohcinedraou.com/project/https://www.mohcinedraou.com/project/pvfitlab2025/Sat, 01 Feb 2025 00:00:00 +0000https://www.mohcinedraou.com/project/pvfitlab2025/<p>An online tool targeting professionals of the Photovoltaic industry. The aim is to provide an intuitive and comprehensive tool for sizing residential grid-tied PV systems. The webapp includes sizing strategies, load shifting approach, economic assessments and more..</p> <p> <figure id="figure-main-dashboard-showing-project-informations"> <div class="flex justify-center "> <div class="w-full" > <img alt="PVfitlab Project " srcset="https://www.mohcinedraou.com/project/pvfitlab2025/pvfitlab1_hu_ddb98decd217ea47.webp 320w, https://www.mohcinedraou.com/project/pvfitlab2025/pvfitlab1_hu_f2f05c3058d7fbba.webp 480w, https://www.mohcinedraou.com/project/pvfitlab2025/pvfitlab1_hu_abf0eb0b08bc1aca.webp 760w" sizes="(max-width: 480px) 100vw, (max-width: 768px) 90vw, (max-width: 1024px) 80vw, 760px" src="https://www.mohcinedraou.com/project/pvfitlab2025/pvfitlab1_hu_ddb98decd217ea47.webp" width="760" height="342" loading="lazy" data-zoomable /></div> </div><figcaption> Main dashboard showing project informations </figcaption></figure> </p> <p> <figure id="figure-appliances-modal-for-household-power-demand-modeling"> <div class="flex justify-center "> <div class="w-full" > <img alt="PVfitlab Appliances " srcset="https://www.mohcinedraou.com/project/pvfitlab2025/pvfitlab3_hu_a1fe1890e12e7457.webp 320w, https://www.mohcinedraou.com/project/pvfitlab2025/pvfitlab3_hu_e7513701290c7480.webp 480w, https://www.mohcinedraou.com/project/pvfitlab2025/pvfitlab3_hu_95f48f155500e6eb.webp 760w" sizes="(max-width: 480px) 100vw, (max-width: 768px) 90vw, (max-width: 1024px) 80vw, 760px" src="https://www.mohcinedraou.com/project/pvfitlab2025/pvfitlab3_hu_a1fe1890e12e7457.webp" width="760" height="291" loading="lazy" data-zoomable /></div> </div><figcaption> Appliances modal for household power demand modeling </figcaption></figure> </p>https://www.mohcinedraou.com/project/nassimdayahead2024/Sun, 01 Sep 2024 00:00:00 +0000https://www.mohcinedraou.com/project/nassimdayahead2024/<p>An approach based on machine learning (ML) algorithms is being applied to the real data generated by Nassim Home (Energy, Temperature, Water&hellip;). The aim is to set up a real-time machine learning algorithm, on the basis of which future decisions can be taken.</p>https://www.mohcinedraou.com/project/nassimhome2021/Tue, 01 Jun 2021 00:00:00 +0000https://www.mohcinedraou.com/project/nassimhome2021/<p>Implementation of a home energy management system (HEMS) through an open-source operating system called Home Assistant, for intelligent energy management as an everyday application scenario of Nassim Autoconsommation. The installation of the HEMS in the Nassim house made it possible to improve comfort, energy efficiency, facilitate everyday tasks and manage safety, lighting, heating and air conditioning systems.</p> <p> <figure id="figure-main-dashboard-showing-energy-usage-and-home-controls"> <div class="flex justify-center "> <div class="w-full" > <img alt="Home Assistant Dashboard" srcset="https://www.mohcinedraou.com/project/nassimhome2021/HA_interface_hu_27524eae96564b3b.webp 320w, https://www.mohcinedraou.com/project/nassimhome2021/HA_interface_hu_9500a43834b10bc6.webp 480w, https://www.mohcinedraou.com/project/nassimhome2021/HA_interface_hu_70bdcd37094d8007.webp 760w" sizes="(max-width: 480px) 100vw, (max-width: 768px) 90vw, (max-width: 1024px) 80vw, 760px" src="https://www.mohcinedraou.com/project/nassimhome2021/HA_interface_hu_27524eae96564b3b.webp" width="760" height="369" loading="lazy" data-zoomable /></div> </div><figcaption> Main dashboard showing energy usage and home controls </figcaption></figure> </p> <p> <figure id="figure-svg-based-dynamic-visuals-showcasing-power-flows"> <div class="flex justify-center "> <div class="w-full" > <img alt="Home Assistant Solar systems" srcset="https://www.mohcinedraou.com/project/nassimhome2021/HA_solar_systems_hu_a43244cf699eab9c.webp 320w, https://www.mohcinedraou.com/project/nassimhome2021/HA_solar_systems_hu_6420ddbfa33b48bd.webp 480w, https://www.mohcinedraou.com/project/nassimhome2021/HA_solar_systems_hu_ad4dcd3de5f74bcc.webp 760w" sizes="(max-width: 480px) 100vw, (max-width: 768px) 90vw, (max-width: 1024px) 80vw, 760px" src="https://www.mohcinedraou.com/project/nassimhome2021/HA_solar_systems_hu_a43244cf699eab9c.webp" width="760" height="465" loading="lazy" data-zoomable /></div> </div><figcaption> SVG based dynamic visuals showcasing power flows </figcaption></figure> </p>https://www.mohcinedraou.com/project/autoconsommation2019/Wed, 01 May 2019 00:00:00 +0000https://www.mohcinedraou.com/project/autoconsommation2019/<p>A tool written in Python whose goal is to generate a schedule for each household appliance to maximize PV self-consumption. The algorithm shifts the load profile of each appliance according to either historical data or predicted photovoltaic data using meteorological API calls. The tool also includes an Economic tab for feasibility assessments. This tool might be soon shared on a GitHub respiratory as an open source project.</p> <div style="position: relative; padding-bottom: 56.25%; height: 0; overflow: hidden;"> <iframe allow="accelerometer; autoplay; clipboard-write; encrypted-media; gyroscope; picture-in-picture; web-share; fullscreen" loading="eager" referrerpolicy="strict-origin-when-cross-origin" src="https://www.youtube.com/embed/lKe5igKpyZs?autoplay=1&amp;controls=1&amp;end=0&amp;loop=0&amp;mute=1&amp;start=0" style="position: absolute; top: 0; left: 0; width: 100%; height: 100%; border:0;" title="Appliances scheduling according to PV predictions &amp; historical data. Autoconsommation Photovoltaïque"></iframe> </div>