Distributed Energy Stations

A Presence in Comprehensive Energy Utilization System to Meet Users' Diversified Energy Needs
Enquire Now

Distributed Energy Stations

Directly facing users, the distributed energy system can produce and supply energy on the spot according to users' needs, and has multiple functions to meet the needs of small and medium-sized energy conversion and utilization systems with multiple objectives. The distributed energy system is a comprehensive energy utilization system. The primary energy source is gas, supplemented by renewable energy sources. The secondary energy source is mainly combined heat and power generation at the user's end, supplemented by other central energy supply systems. These energy sources can meet the diversified demands of users for energy. So far, the distributed energy system has covered natural gas, biomass energy, solar energy, wind energy and ocean energy. According to the forms of energy utilization, the distributed energy system includes fossil energy,

renewable energy, and distributed combined cooling, heating and power generation system. Along the industrial chain, the upstream incorporates the manufacture of natural gas, PV and electrical equipment; the midstream includes distributed energy industries, such as PV distributed power generation, gas-fired distributed power generation and bioenergy power generation; and the downstream consists of application scenarios in industry, commerce and public sector fields.

The distributed energy system can provide customized designs for users, mainly including application scenarios in industrial parks, airports, hotels, university campuses and hospitals. The distributed energy system is suitable for regions with multiple energy demands, large and concentrated energy consumption, and for organizations with high requirements for power supply safety, such as hospitals, hotels, commercial complexes, high-grade office buildings, transportation hubs, data centers, institutions and factories. Highly organized, convenient for centralized control and management, and featuring long-time electricity and cold (heat) loads, these users will generate higher revenues for SEBO and prone to timely payments.

SEBO distributed energy station converts industrial residual gas/waste heat into electric energy through the Apollo MeMs power generation system. Unlike traditional distributed energy station,

SEBO distributed energy station uses external combustion engine to generate electricity, characterizing high efficiency, low noise, low pollution, simple system composition and zero maintenance. Moreover, the heat source used is industrial waste gas/waste heat, which means effective use of resources. The electricity generated by SEBO distributed energy station is stored in the energy storage system. The electric energy can be used in multiple ways, with some being used to maintain the normal operation of SEBO system, and the rest being stored in intelligent charging piles.