Communities in DSpace
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Recent Submissions
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Milkshake Factory
(2025) Osama Salah; Mohammad Kittani
The Milkshake Factory project is a modern physical device that automates shake fabrication and packaging processes. The components of this system are very user-friendly, which makes the installation process effortless. The milkshake milkshake maker is highly customizable and ergonomic. The reliable components used by the device guarantee that every serving of milkshake is of top quality standards apart from being very flexible to changes depending on the users requirements.
The device is composed of four sequential units, each of which is manufactured and organized in a manner that enhances their efficacy and uniformity:
Cup Dispensing & Selection:
Everything is initiated by an automated cup dispenser, which chooses and places a cup on the feed conveyor. At this point, users can finely tune the composition for their milkshake by recently introduced percentage of the various ingredients that are going to be put in, all of which are available in varying quantity. All these selections are under the supervision of a control unit, which makes the required adjustments so that there is no invariant in the milkshakes made by different users.
Ingredient Dispensing:
Having the cup put on a moving conveyor belt initiates its movement towards an ingredient addon section. At this place, milk, Oreo any other ingredients in the specified recipe are poured into the mixer as per the set measurement. This is a vital stage as it maintains the balance of ingredients and keeps the taste and texture uniform.
Mixing process:
After the ingredients are added, they flow into the mixer, where the blending process begins. The cup itself remains separate at this point, waiting to receive the final product. Inside the blending station, the ingredients are thoroughly mixed to achieve the desired creaminess and consistency. This process ensures that all components are evenly incorporated, preventing layering or separation.
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Student Nest
(2025) Mohamad Kittani; Osama Salah
Student Nest is a comprehensive housing platform developed to make it easier for individuals in occupied Palestine to post their properties online and for students to access these properties and contact owner to book them. The platform supports two primary user roles: students and owners, each with personalized experiences, services, and interfaces. Students can explore categorized properties, view owner profiles, chat directly with service providers, and securely place orders using Lahza payments. Owners can create and manage properties, interact with potential clients, and track their bookings. The system includes real-time messaging, a user-friendly navigation bar, and role-based dashboards for efficient interaction. Student Nest is built using NextJS for the frontend side, and MongDB, NodeJS/ExpressJS, REST Framework for the backend, and React Native for the mobile app. By combining modern technology with a mission to facilitate local businesses, the platform promotes online housing booking and digital independence within the Palestinian community.
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A Graduation Project Submitted to Energy and Environment Engineering Department in Partial Fulfillment of the Requirements for Bachelor Degree in Energy Engineering and Environment
(2025-07-09) Omar hatem; Abdullah hatem; Fatema Najem
Abstract
Institutional swimming pools often have high energy consumption and operating expenses, especially in areas like Palestine that are facing energy shortages. With the goal of drastically lowering thermal losses, operating costs, fuel dependence, and related CO2 emissions, this study focusses on a thorough energy audit and methodical optimisation of the Half-Olympic swimming pool at An-Najah National University. Reducing the pool temperature setpoint, insulating hot water distribution pipes, installing a motorised pool cover, repairing and improving the current solar thermal collector array, and switching from traditional diesel boilers to an extremely efficient heat pump system were all part of a planned sequence of energy-saving measures. To further improve the sustainability of the system, a 26 kWp photovoltaic (PV) system was added to help offset the heat pump's electricity consumption.
This study amply illustrated the efficacy and viability of each intervention through comprehensive data visualisation and scenario analyses carried out using Tableau software. The energy system configuration that was optimised resulted in a significant 77% reduction in CO₂ emissions and an approximate 95% reduction in annual operating costs. A replicable and scalable model for sustainable energy management in institutional swimming pool facilities is provided by the implemented solutions, which show that it is possible to combine active renewable energy technologies with passive thermal management measures
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Grow TogetherBy
(2025) Tasbeeh Salahat; Amani Odeh
This project introduces a comprehensive website and mobile application de- signed to connect landowners with skilled workers, optimizing agricultural land use. The platform enables landowners to lease their land, request la- bor for specific tasks, and receive tailored crop suggestions based on their region’s climate and soil conditions. Workers can register their skills, set their availability, and get matched with nearby land opportunities that suit their expertise. Additionally, agricultural service providers—such as olive presses, transportation companies, mills, can advertise their offerings, pro- vide discounts, and connect with potential clients. By seamlessly linking landowners, workers, and service providers, the platform enhances produc- tivity, fosters job creation, and facilitates access to essential agricultural ser- vices, ultimately contributing to a more efficient and sustainable agricultural sector.
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A MOBILE CNC MACHINE DESIGNED FOR ENGRAVING WOOD PANELS Goliath CNC Machine
(2025-07-09) Yazan Jaber; Maen Shalabi; Walaa Sadeq
Abstract:
Mechatronics engineers leverage technology and innovative techniques to solve problems related to time, efficiency, and automation. Computer Numerical Control (CNC) machines play a crucial role in industrial applications, from small-scale workshops to large manufacturing facilities. The Goliath CNC introduces a revolutionary approach to CNC machining. This robotic router offers precision cutting and milling capabilities without the need for a fixed, bulky setup. Unlike traditional machines, Goliath is mobile, moving directly across the workpiece using patented sensor-guided technology. This abstract highlights the key features and potential applications of the Goliath CNC, emphasizing its impact on accessibility, flexibility, and efficiency in modern CNC machining