Oil & Gas
Gazprom Neft Increases Energy Efficiency at Refineries
Gazprom Neft succeeded in cutting energy, heating and fuel costs across its directly owned refineries in Moscow and Omsk throughout 2020, with energy-
Gazprom Neft succeeded in cutting energy, heating and fuel costs across its directly owned refineries in Moscow and Omsk throughout 2020, with energy-saving initiatives delivering savings of RUB400 million. Consistent improvement in managing energy consumption in production is a key element in Gazprom Neft’s ongoing refining-facilities development programme. Gazprom Neft’s Moscow and Omsk refineries implemented a total 40 energy-saving initiatives in 2020.
The Moscow Refinery has further improved the operation of its “Biosphere” biological water treatment facilities, with treated water now being used for steam generation to cover the plant’s requirements. This technological solution has also delivered further reductions in heat and electricity consumption. The plant’s primary oil-refining unit has also taken steps to cut its consumption of gas used for heating, with the plant now operating on the basis of effective usage of thermal energy — i.e., with energy being transferred from those products that have to be cooled down, to those that need to be warmed up. More than 330 lighting fixtures have been replaced with LED equivalents at the Omsk Refinery, which is also implementing projects to make the transition from steam to district heating.
Notes for editors
Gazprom Neft is undertaking a major programme to modernise its Moscow and Omsk Refineries, involving total investment of more than RUB700 billion by 2025. The first stage of this modernisation has involved the construction and reconstruction of key technological facilities, allowing the complete transition to the production of Euro-5 fuels, significantly improving energy efficiency and environmental friendliness in production. The implementation of the second phase of this modernisation programme is now ongoing, as a result of which the refining depth (“conversion factor”) and light product yield are expected to match the highest international standards.