Moisture control in transformers and hot air circulation system

1. Moisture control in transformers and hot air circulation system Removing moisture is a vital process in transformer manufacture and maintenance because, moisture is the foremost challenge that a transformer might face. Moisture affects the electric resistance of the insulation material and prompts ageing of the transformer. After a transformer is assembled and before it is filled with oil, the transformer is dried. Circulating air in the vacuum chamber, vapour phase drying and hot oil spray drying are carried out to ensure dry insulation. The transformer drying ovens are constructed with a view of protecting the equipment from high internal stresses. Not only does it increases the lifespan, but also improves the improves impact of insulating material. One of the above mentioned drying methods are chosen based on their process time and energy consumption. Temperature in HV and LV windings are monitored and the former is heated when its temperature is less than the latter. Such a method is employed to improve insulation at low frequency heat and is more beneficial than the hot air circulation system. Hot air circulation system needs twice the time of vacuum drying to complete the task. Upgrading hot air vacuum system with Transformer drying oven mitigates moisture and enhances functionality of transformers and make them more effectual in the power industry. The transformer is dried by employing one of the methods namely induction heating, hot air circulation system, vacuum drying method and gas-phase vacuum drying method. In hot air circulation method, the transformer is subjected to a drying oven which allows hot air to pass through it. Before initiating the hot air circulation system, the oil tank of the transformer is assembled and oil is filled outside the transformer drying oven. The entire setup is monitored with SCADA system which notes input of parameters in initial condition and those in different drying stages. Such details are inclusive of weight of cellulose paper insulation material, primary winding voltage, material used for winding and its density and cold resisitance. A vacuum leak test is performed which is followed by heating the windings by using combined thermal plate heater and by passing LFH converter current around the windings. The winding temperature is made uniform in the insulation and winding parts. After stabilization time is completed, hard vacuum is pulled in the drying oven chamber which removes considerable amount of moisture from the insulation material. After releasing vacuum, the aeration valve is opened so that atmospheric pressure could be raised. The hot air circulation system is mainly used for small transformers, which could be upgraded beneficially with LFH. Flexible connections enable hot air circulation system to be pumped inside the

2. transformer. Hot air circulation systems support LFH process in larger power distribution and small power transformers. Transformer drying ovens differ in structure based on processes employed like lesser than or equal to 100 MVA for which air drying plant is used and for capacity more than this, phase drying plant is used to reduce process duration. The drying ovens are further divided into several modules so that a comprehensive installation is ensured.