Ege DuranCemalettin ÖztürkMustafa Arslan OrnekDuran, EgeOzturk, CemalettinOrnek, M. Arslan2025-10-06202519366590, 193665821936-65821936-659010.1007/s10696-024-09541-12-s2.0-105002011556https://www.scopus.com/inward/record.uri?eid=2-s2.0-105002011556&doi=10.1007%2Fs10696-024-09541-1&partnerID=40&md5=12f77837c808797d2bca37df5454e268https://gcris.yasar.edu.tr/handle/123456789/8033https://doi.org/10.1007/s10696-024-09541-1Managing yarn dyeing processes is one of the most challenging problems in the textile industry due to its computational complexity. This process combines characteristics of multidimensional knapsack bin packing and unrelated parallel machine scheduling problems. Multiple customer orders need to be combined as batches and assigned to different shifts of a limited number of machines. However several practical factors such as physical attributes of customer orders dyeing machine eligibility conditions like flotte color type chemical recipe and volume capacity of dye make this problem significantly unique. Furthermore alongside its economic aspects minimizing the waste of natural resources during the machine changeover and energy are sustainability concerns of the problem. The contradictory nature of these two makes the planning problem multi-objective which adds another complexity for planners. Hence in this paper we first propose a novel mathematical model for this scientifically highly challenging yet very practical problem from the textile industry. Then we propose Adaptive Large Neighbourhood Search (ALNS) algorithms to solve industrial-size instances of the problem. Our computational results show that the proposed algorithm provides near-optimal solutions in very short computational times. This paper provides significant contributions to flexible manufacturing research including a mixed-integer programming model for a novel industrial problem providing an effective and efficient adaptive large neighborhood search algorithm for delivering high-quality solutions quickly and addressing the inefficiencies of manual scheduling in textile companies, reducing a time-consuming planning task from hours to minutes. © 2025 Elsevier B.V. All rights reserved.Englishinfo:eu-repo/semantics/openAccessAlns, Batching Scheduling, Dyeing, Mip, Combinatorial Optimization, Dyeing, Industrial Research, Integer Programming, Textiles, Wool, Yarn, Adaptive Large Neighborhood Searches, Batching Scheduling, Bin Packing, Customer Orders, Dyeing Process, Mip, Multidimensional Knapsack, Neighborhood Search Algorithms, Optimization Method, Textile IndustryCombinatorial optimization, Dyeing, Industrial research, Integer programming, Textiles, Wool, Yarn, Adaptive large neighborhood searches, Batching scheduling, Bin packing, Customer orders, Dyeing process, MIP, Multidimensional knapsack, Neighborhood search algorithms, Optimization method, Textile industryBatching SchedulingMIPALNSDyeingArticle