KnE Social Sciences

Published date: Oct 31 2025

Journal Title: KnE Social Sciences

Issue title: The 8th Legal International Conference and Studies (LICS 2025): Corporate Responsibility and Environmental Law Through Economic & Business Management Practices

Pages: 236 - 256

DOI: 10.18502/kss.v10i27.20065

Okvita Wahyuniokvita@pip-semarang.ac.idUniversitas Islam Sultan Agung (UNISSULA), Semarang

Mohammad Sapta HeriyawanUniversitas Islam Sultan Agung (UNISSULA), Semarang

Awel SuryadiUniversitas Islam Sultan Agung (UNISSULA), Semarang

Warehouse managers in ports are responsible for managing and maintaining warehouses within the port, encompassing the receipt, storage, processing, and distribution of goods. They ensure the efficiency and safety of warehouse operations and comply with applicable regulations. This study aims to determine the management of warehouses in ports with limited land since maintaining environmental cleanliness requires careful planning and strategy. The approach employed is a descriptive-analytical method that utilizes primary and secondary data, including library studies. Here are some key considerations regarding the use of technology. Logistics: Implement a warehouse management system (WMS) and automation technology to maximize utility, utilizing high shelves, conveyor systems, and robots. Space arrangement: Make efficient arrangements by sorting goods based on frequency of use, size, and characteristics. Utilize vertical space: Leverage the warehouse’s height by installing vertical shelves or storage systems. Warehouse mapping: Create precise warehouse mapping to facilitate the search and storage of goods. Pollution prevention and environmental cleanliness: Ensure safe waste disposal by determining procedures that comply with environmental regulations, including separating waste types and implementing proper processing methods. Limited use of chemicals: Avoid using hazardous chemicals and opt for environmentally friendly alternatives. Prevention of leaks and pollution: Conduct routine inspections of equipment and storage tanks to prevent leaks and contamination. Cleanliness maintenance: Conduct routine cleaning of the warehouse and surrounding areas to prevent the spread of germs and odors. Use of air conditioning systems: Utilize a well-ventilated system to prevent the accumulation of dust and hazardous gases.

Keywords: cleanliness, environment, limitations, port, WMS

[1] Andika, Taufik. Green Logistics sebagai Strategi Daya Saing Pelabuhan di Indonesia. Jakarta: Pusat Studi Transportasi dan Maritim; 2018.

[2] Bloomberg DJ. Logistics: Principles and Applications. Thomson Learning; 2002.

[3] Frazelle E. World-Class Warehousing and Material Handling. McGraw-Hill; 2002.

[4] Richards G. Warehouse Management: A Complete Guide to Improving Efficiency and Minimizing Costs in the Modern Warehouse. Kogan Page; 2011.

[5] Hartono B. Evaluasi Sistem Manajemen Gudang Berbasis Teknologi di Pelabuhan Modern. Semarang: Lembaga Kajian Logistik Terpadu; 2018.

[6] Haryanto L. Strategi Penataan Gudang di Pelabuhan Kelas Menengah dengan Lahan Terbatas. Makassar: Universitas Bahari Press; 2017.

[7] Bartholdi J. Warehouse & Distribution Science. The Supply Chain and Logistics Institute; 2011.

[8] Kusuma, Fajar Aditya. Pemanfaatan IoT untuk Efisiensi Energi Gudang Logistik di Pelabuhan Belawan. Surabaya: Lembaga Kajian Transportasi dan Lingkungan; 2021.

[9] Lestari I. Sistem Pendingin dan Ventilasi dalam Gudang Penyimpanan Produk di Wilayah Pelabuhan Tropis. Surabaya: Pusat Teknologi Bangunan Logistik; 2024.

[10] Martin Christopher. Logistics and Supply Chain Management. Pearson Education Limited; 2016.

[11] Maulana RF. Desain Gudang Ramah Lingkungan Berbasis Efisiensi Energi. Bandung: Penerbit Rekayasa Logistik Indonesia; 2022.

[12] Nuraini S. Pengelolaan Limbah Industri Logistik di Kawasan Pelabuhan. Jakarta: Penerbit Hijau Nusantara; 2021.

[13] Oktaviani R. Dampak Kegiatan Logistik terhadap Kualitas Lingkungan Pelabuhan. Jakarta: Pusat Kajian Ekologi Maritim; 2023.

[14] Prasetyo BA. Teknologi Otomatisasi dalam Sistem Manajemen Gudang Pelabuhan. Surabaya: Penerbit Logistik Cerdas; 2019.

[15] Puspasari D. Integrasi Konsep Keberlanjutan dalam Pengelolaan Gudang Pelabuhan di Indonesia. Yogyakarta: Penerbit Akademi Hijau; 2020.

[16] Rahmatullah, Hendra. Implementasi ISO 14001 dalam Pengelolaan Gudang di Pelabuhan Tanjung Priok. Jakarta: Lembaga Studi Lingkungan dan Maritim; 2018.

[17] Rahmawati Y. Kebijakan Insentif Pajak bagi Pelabuhan Ramah Lingkungan. Jakarta: Badan Penelitian Kebijakan Maritim; 2022.

[18] Ramadhan R. Perencanaan Tata Ruang Gudang di Kawasan Perkotaan Pelabuhan. Yogyakarta: Gama Press; 2020.

[19] Sari A. Partisipasi Komunitas dalam Pengelolaan Sampah Pelabuhan Tanjung Perak. Surabaya: Pusat Studi Ekologi Perkotaan; 2020.

[20] Sulaiman, Agus. Tantangan dan Solusi Manajemen Gudang Ramah Lingkungan di Pelabuhan Indonesia Timur. Makassar: Lembaga Riset Lingkungan Maritim; 2021.

[21] Susanto A. Efektivitas Penggunaan Ruang Vertikal dalam Manajemen Gudang Pelabuhan. Bandung: Teknologi Logistik Indonesia; 2022.

[22] Syahputra M. Model Insentif Kinerja Lingkungan bagi Tenaga Gudang Pelabuhan Makassar. Makassar: Universitas Maritim Indonesia Press; 2019.

[23] Utami L. Audit Energi dan Efisiensi Air dalam Operasional Gudang Pelabuhan. Bandung: Institut Teknologi Logistik Indonesia; 2023.

[24] Wibowo D. Integrasi Warehouse Management System dalam Digitalisasi Rantai Pasok Maritim. Jakarta: Penerbit Digital Maritim Indonesia; 2020.

[25] Yuliani PA. Optimalisasi Tata Letak Gudang dalam Keterbatasan Lahan Kawasan Pelabuhan. Semarang: Penerbit Transportasi Nusantara; 2017.