Product Thermal Capacity: 1 - 20 t/h
Working Pressure: 0.7 - 2 Mpa
Available Fuel: Nature gas, coke oven gas, biogas, methanol, liquid propane gas, diesel, heavy oil, light oil, crude oil, etc.
Available Industries: Heat supplying, chemical, food, textile, printing and dyeing, cigarettes and tobacco, fodder, pharmacy, building materials, brewery, rubber, hospital etc.
WNS series horizontal internal combustion boiler is a boiler shell type 3 passes wetback oil/gas fired boiler. After fuel is being atomized by burner, flame is full of the wave furnace and transfer heat via furnace wall, this is 1st pass; the high temperature smoke is collected in reversal chamber and then enters 2nd pass which is grooved tubes bundle area; after heat convection, air temperature gradually falls and goes to front smoke box and turn to 3rd pass, which is smooth tubes bundle area, and then enters chimney passing back smoke box and exhausted to the atmosphere.
1. Digitized manufacture
The key part such as material cutting, rolling, drilling are proceeded by advanced CNC machining process to reduce the assemble stress and extend boiler working lifetime.
The front and back smoke chamber plates are cut by CNC plasma cutting machine and looks tidy and beautiful.
2.Easy operation and maintenance
Fully automatically operating, with automatically adjustment and protection of burning, water level, temperature and steam pressure.
3. Longer working life
Smoke tube and tube sheet connection is expanded first to eliminate the gap between them, then adopt automatic argon arc welding to relief the stress and expand boilers working life.
Longitudinal and girth joint adopt advanced automatic submerged-arc welding for good welding quality. All longitudinal and girth joint will have 100% radiographic inspection.
Fin tube us ND steel or stainless-steel material which avoid low temperature corrosion.
Inspection procedure point is set up to guarantee the sequence of expanding and welding, avoid cracking of the tube sheet holes.
4. Less fuel consumption
High quality aluminum silicate fiber is used with fire clay insulation, to control the boiler body temperature below 45℃ to control heat lost.
Sufficient steam storage room and heating area makes boiler to generate high quality steam and high thermal power.
Condenser is added to reuse the waste heat of the exhausted smoke to increase feeding water’s temperature and reduce emission temperature, which can increase the thermal efficiency above 98% and save operating cost.
Cited by: 6 Energy recovery from waste is part of the non-hazardous waste management hierarchy.Converting non-recyclable waste materials into electricity and heat generates a renewable 1 energy source and reduces carbon emissions by offsetting the need for energy from fossil sources and reduces methane generation from landfills.. 1 Defined as separated yard waste or food waste, including recycled cooking
A waste-to-energy plant is a waste management facility that combusts wastes to produce electricity.This type of power plant is sometimes called a trash-to-energy, municipal waste incineration, energy recovery, or resource recovery plant.. Modern waste-to-energy plants are very different from the trash incinerators that were commonly used until a few decades ago.
File Size: 2MB RD&D to advance waste heat recovery technologies. Technology needs are identified in two broad areas: 1) extending the range of existing technologies to enhance their economic feasibility and recovery efficiency, and 2) exploring new methods for waste heat recovery, especially for unconventional waste heat sources. Acknowledgement
Cited by: 2 Waste Heat Recovery for the Cement Sector . 1 Waste Heat recovery (WHr) is a proven technology, but until now WHr uptake has been limited except in China. As early as the 1980s, Japanese companies spear-headed the introduction of WHR power systems in the cement industry. Currently, there are a range of commercially-
Waste heat is heat that is produced by a machine, or other process that uses energy, as a byproduct of doing work.All such processes give off some waste heat as a fundamental result of the laws of thermodynamics.Waste heat has lower utility (or in thermodynamics lexicon a lower exergy or higher entropy) than the original energy source.Sources of waste heat include all manner of human
User rating: 4/5 Harvesting the waste heat from industrial processes or power plants is a very effective way to increase the efficiency of an energy system. Available usually as low-grade heat, it needs to be transferred to the points of consumption in order to be utilized.
Waste Heat Recovery Power Plants, contribute significantly, to the electrical energy saving (to the tune of 25%). The reduction in CO 2 emission, makes it environmental friendly. Installation of the waste heat recovery plant has to be tackled as a system approach, rather than considering cement plant and WHRPP operations, independently.
recovered. Waste heat Recovery means allowing the waste heat to leave the process, but converting into electricity before it is discharged at lower temperature level to the environment. Therefore, after the efficiency of a cement plant has been driven to the economic optimum, the remaining waste heat is converted into electricity. Waste
Cited by: 5 Proceedings of the 18th Annual North American Waste-to-Energy Conference NAWTEC18 May 11-13, 2010, Orlando, Florida, USA NAWTEC18-3567 HIGH EFFICIENCY WASTE TO ENERGY POWER PLANTS COMBINING MUNICIPAL SOLID WASTE AND NATURAL GAS OR ETHANOL Sergio Guerreiro Ribeiro University of Brasil – COPPE-UFRJ Rio de Janeiro, RJ 21945-970, Brazil
The first step in planning to install a waste heat recovery system (WHRS) is to work out the net available waste heat that can be used to generate power. 2.1.1 In a cement plant, waste heat is available mainly from kiln exhaust gases and vent air from the clinker cooler.
A residential building’s total energy consumption can be reduced considerably by recovery of this waste heat. Finns use up to 155 litres of water a day, around 40% of which is hot water. On average, a fifth of the energy used by residential buildings goes down the drain, but this proportion is likely to grow as older properties’ energy
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