Power and Water

  • Heating Power
  • Water Supply & Drainage

As an expert in first-class energy conservation and emission reduction, CERI provides a wide range of thermal power generation solutions and combined heat and power co-generation solutions such as:

Energy analysis planning of coal gas, steam and off-gas, etc.

Entire power system diagnosis

Safe grid-connection plans and efficient power station systems

Maximum gradient utilization of energy

Cost reduction and benefit increase

CERI has completed over 100 thermal power plants of different sizes. CERI has been recognized for excellent consulting, design and general contracting of infrastructure area.

Key Projects

Jinchang Waste Heat Utilization Project of Circulating Cooling Water

Yingkou Coastal Industrial Base Heat Supply PPP Project

  • Jinchang Waste Heat Utilization Project of Circulating Cooling Water

    Location: China
    Project type: EPC
    Completion date: 2013
    Project scope:
    A Heat plant constructed to recycle waste heat of circulating cooling water by heat pump and peak-load heater. Main equipment includes 3 x 25MW heat pump, 3 x 25MW steam-water heat exchangers, heating network circulation pump, make-up water pump, dirt separator, steam cooling device, etc. Primary network water return/supply design temperature is 60℃ inlet /110℃ outlet (maximum 130℃).
  • Yingkou Coastal Industrial Base Heat Supply PPP Project

    Location: China
    Contract type: PPP
    Completion date: 2015
    Project scope:
    There are 51 heat exchange stations, 24,634m primary heat supply pipe network, 8781m secondary heat supply pipe network and 10,842m steam pipe network in this project to supply steam for industrial area of 1,200,000 m².

Urban Water Supply

CERI focuses on innovation and application of full range products of urban water supply including surface water treatment, depth treatment of slight-polluted source water, long distance water transmission pipelines, water supply network, intelligent water management, etc. with optimum performance and low cost.

Municipal Sewage Upgrading and Sludge Treatment & Disposal

CERI is committed to providing comprehensive solutions for municipal sewage upgrading and sludge treatment & disposal system of municipal sewage, municipal reclaimed water, urban and rural sewage and sewage from industrial parks.

Riverway Treatment

CERI is committed to prevention and controlling of waterlogging, water quality improvement of rivers and lakes with comprehensive technology of ecology combined with landscape. CERI can provide an integrated solution for riverside ecological restorations (revetment, floating island and submerged plants), and polluted river water treatment (emergency treatment, strengthening sludge abatement and sediment treatment) as well as landscape treatment.

CERI’s solution can meet the requirements of flood control and drainage in riverway. It can also meet the needs of basic ecological flow of rivers and essential volume and level of landscape water to maximum manage riverway safety under stormy weather.

Key Projects

Chengdu Water Treatment Plant and Pipe-Net

Jining Sludge Hydrothermal Carbonization (HTC) Demonstration Project

  • Chengdu Water Treatment Plant and Pipe Network

    Location: China
    Contract type: EPC
    Completion date: 2017 (phase I 2013)
    Project scope:
    Total water treatment capacity: 400,000m3/d; Upstream water pipeline DN1200 (18km); downstream water distribution pipeline DN1400 (5km)
  • Jining Sludge Hydrothermal Carbonization (HTC) Demonstration Project

    Location: China
    Completion date: 2016
    Project scope:
    Project is implemented by two phases. Phase I 45t/d and Phase II up to 90t/d with advanced sludge hydrothermal carbonization (HTC) technology including sludge warehouse, feeding system, front heat exchange system, main reactor, rear heat exchange system and sludge squeezing and dewatering system units.
    Technical highlight:
    HTC process is advanced technology with a small footprint. In-situ reformation can be performed in sewage plant area, operating cost can be reduced by over 40% compared with thermal drying and incineration technology. The final product is bio-carbon for further resource utilization.