In this study, we address the rental car relocation problem considering carbon emissions. This problem arises due to imbalances in car demand across different stations in a traditional rental car company. With increasing environmental awareness, it is important for companies to consider carbon emissions in their operations. In addition to inflexible orders with pre-assigned car types, we also consider flexible orders, where car types are not pre-assigned, adding complexity to the problem. Our goal is to help decision-makers determine order acceptance, car assignments to orders, and vehicle relocation strategies to optimize business operations and achieve both economic and environmental goals. To solve this problem, we develop an integer programming (IP) model that accommodates multiple car types with varying carbon emission levels and includes a mechanism for assigning car types to flexible orders. Due to the time-consuming nature of solving the IP model, we design a solution approach based on the time-space network (TSN) model to address our problem. For instances involving only inflexible orders, the TSN model allows us to rapidly obtain optimal solutions matching those of the IP model. For instances containing at least one flexible order, we apply two methods to generate several assignments for these orders and then solve the TSN model with these assignments to attain near-optimal solutions. Our numerical experiments demonstrate that these methods achieve near-optimal solutions in reasonable time. Our approach balances profitability and environmental impact by considering carbon emissions.