Cost Core Dimension of Lithium Battery Three-way Stacker in Multi-shift Operation Scenario
Accurate calculation of energy consumption costs
In the multi-shift operation mode, energy consumption is the core component of operating costs. For the BYD RTR16i, according to the operation intensity of 3 shifts per day and 8 hours per shift, the lithium battery system equipped with it has high-efficiency charging and discharging characteristics. A single charge can support about 12 hours of continuous operation, meeting the needs of two shifts. The third shift can complete the operation with only a short replenishment. Compared with the traditional power stacker, the lithium battery system has higher energy consumption efficiency, and the electricity expenditure in a single operation cycle can be controlled in a lower range. The long-term accumulation of energy consumption cost advantages is obvious.
Fine management and control of maintenance costs
Multi-shift operation will accelerate equipment wear and tear, and maintenance cost control is crucial. BYD RTR16i's lithium battery system has a simplified structure, eliminating the need for complex maintenance processes of traditional power equipment. For example, there is no need to replace oil, filter elements and other components regularly, and only regular inspections of batteries, hydraulic systems and walking mechanisms are required. According to the annual multi-shift operation calculation, the annual maintenance cost is only a part of the traditional power stacker, which greatly reduces the maintenance investment in long-term operation.
Indirect cost optimization due to operational efficiency
Under the scenario of multi-shift operation, the stability and operation efficiency of the equipment directly affect the indirect cost. The BYD RTR16i has flexible steering and high-level stacking capabilities, which can improve the utilization rate of storage space, reduce the repetitive operation of cargo handling, and shorten the operation cycle. According to estimates, under the same storage scale, the equipment can reduce a certain amount of labor input, reduce the loss in the process of cargo turnover, and further reduce the overall operating cost.
Through the cost calculation of the multi-shift operation scenario of BYD RTR16i, it can be seen that the lithium battery three-way stacker has significant advantages in terms of energy consumption, maintenance and indirect costs, which can provide warehousing and logistics enterprises with a more economical equipment selection direction in the multi-shift operation mode.
