Waste heat recovery in cement plant
Waste heat recovery in cement plant

Waste heat recovery in cement plant

It is an established practice to use alternate sources of energy to reduce cost of manufacturing. One of the proved practices is to have waste heat recovery system installed. Here is a case study with more details.

Energy is a major input in cement manufacturing process and is being met through captive power generation to run the operations cost effectively. On an average, energy cost is around 40 per cent of the production cost for cement manufacturing.

Cement plants in India have installed coal based captive power plants (CPP), which are in operation for several decades. Before this technology was introduced, 30 to 40 per cent of the heat generated in the cement rotary kiln and after quenching cooler (AQC) processes of a cement plant were wasted and therefore, efforts were made to use the waste heat productively to bring down the cost of production. As a part of this process, since 2002, cement facilities started adopting waste heat recovery systems for power generation.

Waste heat recovery (WHR) power plant installed in cement plants, use the heat generated through rotary kiln preheater (PH) and AQC exhaust hot gases for power generation. These hot gases are used to generate steam in steam generator (Boiler) which is further used to generate electricity/power through steam turbo generator (STG). Typically 20 to 30 per cent power requirement of the cement plant can be fulfilled using this waste heat for power generation application, which is a substantial savings/reduction in the overall cost of production.

The number of preheater stages in a cement plant has a significant bearing on waste heat recovery potential. A preheater tower is likely to have four to six stages. Aged plants have 4 and 5 stage heat recovery in the preheater and thus have a higher potential for power generation. If the numbers of preheater stages are more, efficiency of the cement plant increases but has less potential for WHR power generation. Mid-tapping of AQC is important since it offers higher thermal energy or higher gas temperature. The potential of power generation is 25 KWh/tonne to 45 KWh/tonne of clinker production.

There are three processes by which WHR0-based power plants are installed in a cement industry globally.

Steam Rankine Cycle System (SRC)
Organic Rankine Cycle System (ORC)
Kalina-based system

In India, SRC is widely used for WHR based power generation in cement plants. In SRC, exhaust gases from rotary kiln pass through preheaters (PH) and reach the preheater boiler. Similarly mid tapping from AQC induces hot gases to AQC boiler.

One cement kiln line requires 2PH boiler and 1 AQC boiler. These boilers, based on heat source, generate Medium Pressure (MP) steam of 12 Ata to 18 Ata at temperature of 340 to 450 degree Celsius and low pressure (LP) steam of 2 Ata to 3 Ata pressure and temperature of 175 to 195 degree Celsius. For such application, Injection condensing turbines are used. Injection condensing turbines use medium pressure (MP) steam as inlet to turbine and LP steam is injected at LP side of the turbine. After this, combined steam is expanded at LP/Exhaust side to 0.1 Ata or 0.2 Ata based on water cooled condenser and air cooled condenser options.

Steam generation from hot gases is an important engineering and design aspect. Leading Indian boiler companies have developed expertise in steam generation, across various variable situations. Similarly Injection condensing turbines developed by Triveni for different MP and LP steam combinations are successfully working across Indian Cement Industry. These indigenised steam turbines and boilers helps in eliminating the dependency on Chinese boilers and Chinese turbines which were earlier being used in many WHR plants. While more than 60 per cent of cement plants have adopted WHR-based power plants, larger cement companies are considering WHR power plants for their Greenfield projects.

Triveni Turbines has supplied and installed several injection condensing turbines for cement WHR plants across India. Detailed design consideration is vital in injection and admission zone. Triveni Turbines rotors are designed with higher stability to offset the excitation caused due to fluctuating injection steam loads. Turbine mid-section and LP section is subjected to cyclic fatigue loads induced by thermal cycle and flow variations. Design and engineering teams carry out CFD analysis and creep fatigue analysis to address these issues. This design philosophy has made the turbines made by Triveni, robust and efficient for cement WHR applications. Following are exclusive offerings of Triveni which makes it one of the preferred supplier for Cement WHR applications.

Integral Lube Oil tank: Triveni offer integral lube oil tank, for PHL and civil cost optimisation of TG house.
MRT: Triveni use live steam MRT for its turbines. Turbine is tested with live steam from boilers at Bengaluru works with job mounted turbo supervisory systems and woodward governor and gear box.
In-house manufacturing: Turbine components like blades, rotor, and casing are machined and manufactured and assembled in same work shop at Bengaluru.
Vaccum tunnel: High Speed Balancing of Turbine Rotor is done in "Schenk" Vaccum Tunnel at both Peenya and Sompura Works at Bengaluru.
Triveni gearbox: Gearbox is from Triveni (TEIL) Mysore Works. Assembly is done with gearbox. Turbine and gearbox is installed on the same baseplate and becomes one unit. No separate foundation for gearbox is required.
Some of our prestigious projects across cement WHR plants in India are:
Ultratech Cement
5 turbine orders - Dhar Cement Works, Hirmi Cement Works, Bela Cement Works, Rajashri Cement Works and Dala Cement Works. Dhar and Hirmi Cement TG sets are in operation. Other three are in execution.
Nuvoco Vistas (Previously Lafarge Cement)
3 installations - Arasmita Cement, Sonadih Cement, Chittorgarh Cement Works
Mangalam Cement - Kota Rajasthan
Prism Johnson Cement - Satna, Madhya Pradesh
Parashakti Cement (Andhra Pradesh)
Deccan Cement (Andhra Pradesh)
Samrat Cement (Nepal)
Dalmia Cement (Odisha)
Bhavya cement (Andhra Pradesh)
Penna Cement (Andhra Pradesh)

Site installations: Ultratech Cement - Dhar Cement Works (Madhya Pradesh) - 13 MW TG installation

Parashakti Cement (Andhra Pradesh) - 6.5 MW TG installation with axial flow exhaust.

WHR flow diagram

Typical Admission/Injection Cross Section of Triveni make Turbine

Article by Prashant Dhanpawde, Head of Western Region Operations for India. Triveni Turbines Ltd

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