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    <dc:date>2026-07-17T00:24:11Z</dc:date>
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    <title>JOURNAL OF PETROCHEMICAL ENGINEERING: Volume 1, Issue 1, 2026</title>
    <link>https://repositori.mypolycc.edu.my/jspui/handle/123456789/10114</link>
    <description>Title: JOURNAL OF PETROCHEMICAL ENGINEERING: Volume 1, Issue 1, 2026
Authors: Politeknik Kuching Sarawak
Abstract: This volume comprises the technical writings of final-year projects presented at the Petrochemical Engineering, Environmental, and Renewable Energy Symposium, Volumes 2, 2025, organized by the Unit Projek Pelajar and co-organized by UPIK, Jabatan Kejuruteraan Petrokimia, Politeknik Kuching Sarawak. The focus of the technical papers aligns with the themes of Petrochemical Engineering, Environmental, and Renewable Energy, as required by the DGP50242 course. The primary aim of the Journal of Petrochemical Engineering is to provide a scholarly platform for final-year students, lecturers, and researchers from the Department of Petrochemical Engineering, Politeknik Kuching Sarawak, to contribute and share knowledge, insights, innovative ideas, and practical experiences. This platform serves to strengthen research culture and promote academic engagement among peers, fostering future advancements and innovation in the field of Petrochemical Engineering. It is hoped that the contributions compiled in this journal will enrich the existing body of knowledge and enhance research exposure in the relevant disciplines.
Description: 46 M.S</description>
    <dc:date>2026-01-01T00:00:00Z</dc:date>
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  <item rdf:about="https://repositori.mypolycc.edu.my/jspui/handle/123456789/10113">
    <title>INTRODUCTION TO PYTHON FROM PROCESSING ENGINNERING STUDENT VOL 1</title>
    <link>https://repositori.mypolycc.edu.my/jspui/handle/123456789/10113</link>
    <description>Title: INTRODUCTION TO PYTHON FROM PROCESSING ENGINNERING STUDENT VOL 1
Abstract: Introduction to Python for Process Engineering Student (Vol.1) serves as an essential beginner's guide tailored&#xD;
specifically for engineering students venturing into the world of coding. This e-book provides a structured and&#xD;
easy-to-understand approach to Python, a highly relevant programming language in modern process&#xD;
engineering. Readers will begin with a practical Installation Guide, followed by a clear overview of Computer&#xD;
Languages and the Fundamentals of Programming Systems. The core chapters systematically introduce&#xD;
essential programming building blocks, covering Variables and the Rules in Assigning Variables, Scope and&#xD;
Variables, as well as Operators and Expressions. By concluding with a detailed guide on Manipulating&#xD;
Variables, Operators, and Expressions, this volume effectively equips process engineering students with the&#xD;
foundational logic and technical skills necessary to begin tackling computational problem-solving in their&#xD;
academic and professional pursuits.
Description: 96 M.S</description>
    <dc:date>2026-01-01T00:00:00Z</dc:date>
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  <item rdf:about="https://repositori.mypolycc.edu.my/jspui/handle/123456789/10112">
    <title>RENEWABLE ENERGY: THE INTERACTIVE GUIDE FOR COLLABORATIVE LEARNING</title>
    <link>https://repositori.mypolycc.edu.my/jspui/handle/123456789/10112</link>
    <description>Title: RENEWABLE ENERGY: THE INTERACTIVE GUIDE FOR COLLABORATIVE LEARNING
Authors: Azman, Azarina; Jamali, Nor Haizan; Wahid, Muliadi
Abstract: Renewable energy represents a transformative pathway toward a sustainable and&#xD;
environmentally responsible future. The transition from conventional fossil fuels to&#xD;
renewable energy sources is not only a technological shift but also an important educational&#xD;
mission. Renewable Energy: The Interactive Guide for Collaborative Learning is developed&#xD;
to bridge the gap between theoretical understanding and meaningful application. It is&#xD;
designed to equip students with essential knowledge, analytical skills, and practical insight&#xD;
into modern renewable energy systems.&#xD;
This eBook integrates cooperative learning strategies through structured group activities,&#xD;
discussion, and collaborative problem-solving exercises embedded within each topic.&#xD;
Students are encouraged to work in teams to analyze case studies, interpret system&#xD;
performance data, and evaluate real-world renewable energy applications. Interactive&#xD;
quizzes are designed not only for individual assessment but also for peer discussion and&#xD;
group reflection, reinforcing shared understanding and accountability.&#xD;
Aligned with the Outcome-Based Education (OBE) framework, each topic clearly states&#xD;
measurable learning outcomes and aligns them with notes, activities, and assessments. The&#xD;
structured notes provide foundational theory and conceptual explanations, while quizzes&#xD;
serve as formative assessments to measure mastery of intended outcomes. Scenario-based&#xD;
questions and applied calculations ensure that learners demonstrate both cognitive&#xD;
understanding and practical competency.&#xD;
To enhance engagement and experiential learning, the eBook incorporates interactive&#xD;
videos that visually explain energy conversion processes, system components, and&#xD;
operational mechanisms. These videos support diverse learning styles and strengthen&#xD;
conceptual clarity. Additionally, Augmented Reality (AR) features allow students to visualize&#xD;
renewable energy systems—such as solar panels, wind turbines, hydroelectric plants, or&#xD;
biogas digesters—in three-dimensional form. Through AR exploration, learners can interact&#xD;
with system components, observe internal structures, and better understand operational&#xD;
principles beyond static diagrams.&#xD;
By combining structured notes, quizzes, interactive multimedia, and AR technology within a&#xD;
cooperative and OBE-driven framework, this eBook transforms learning from passive&#xD;
reading into an immersive and outcome-focused educational experience. Students are&#xD;
guided not only to understand renewable energy concepts but also to apply, analyze, and&#xD;
evaluate them collaboratively in preparation for real-world energy challenges.
Description: 112 m.s</description>
    <dc:date>2026-01-01T00:00:00Z</dc:date>
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  <item rdf:about="https://repositori.mypolycc.edu.my/jspui/handle/123456789/10111">
    <title>QUICK FACTS FOR WIRELESS COMMUNICATION</title>
    <link>https://repositori.mypolycc.edu.my/jspui/handle/123456789/10111</link>
    <description>Title: QUICK FACTS FOR WIRELESS COMMUNICATION
Authors: Jamali, Nor Haizan; Azman, Azarina; Wahid, Muliadi
Abstract: Quick Facts for Wireless Communication serves as a practical guide to the&#xD;
technology that powers our connected world. The book begins by tracing the&#xD;
history of wireless tech from the early discoveries of Maxwell and Hertz to the&#xD;
high-speed "Next Generation" networks of today. It breaks down the different&#xD;
ways we stay connected, ranging from small-scale personal devices (WPAN) to&#xD;
entire city-wide networks (WMAN).&#xD;
The eBook dives into the specifics of everyday tools, explaining how Bluetooth&#xD;
functions, the difference between active and passive RFID tags, and how Wi-Fi&#xD;
has progressed through the years to the current Wi-Fi 6 standard. Attention is&#xD;
given to cellular communication concepts, explaining the engineering behind&#xD;
frequency reuse, cluster sizing, and capacity enhancement techniques like cell&#xD;
splitting and sectoring. Additionally, the text addresses network challenges,&#xD;
including the management of Co-channel and Adjacent-channel interference,&#xD;
and outlines mobility management strategies such as paging, roaming, and&#xD;
various handover mechanisms to ensure seamless connectivity in cellular&#xD;
communication.
Description: 57 M.S</description>
    <dc:date>2026-01-01T00:00:00Z</dc:date>
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