“Manufacturing Waste Heat Transfer Products To Save …


  • Production capacity: 35-75 t/h
  • Work pressure: 1.25-5.3 MPA
  • Applicable fuel: Bituminous coal, anthracite, meagre coal, lignite, gangue, waste, sludge
  • Applicable industry: Chemical, food, tobacco, textile, printing and dyeing, feed, medicine, building material, wine, rubber, hospital

Product introduction

  As a new mature high-efficiency and low-pollution clean coal technology, circulating fluidized bed combustion (CFBC) technology has many advantages that other combustion methods do not have. Circulating fluidized bed combustion is low-temperature combustion, so the NOx emission is much lower than that of pulverized coal furnace, only 200ppm. CFBC can desulfurize directly during the combustion process, and the desulfurization efficiency is high. The technology and equipment are simple and economic, and the costs of its initial investment and operation are much lower than those of dry pulverized coal furnace and flue gas desulfurization (PC+FCD). The discharged ash residue has good activity and is easy to be comprehensive utilized without secondary ash residue pollution. The load adjustment range is large, and the low load can be reduced to about 30% of the full load.

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High temperature cyclone separator
  • High efficiency, wear resistance, separation efficiency ≥ 98%, effectively improve the combustion efficiency of the boiler thermal efficiency.

Large furnace design
  • Large furnace, low velocity design; the application of wearproof tube technology, reducing erosive abrasion.

  • Extend the residence time of coal particles in the furnace so that the coal can be fully burned.

Bell jar type hood
  • Adopt bell type hood to distribute air averagely and avoid fuel reverse to wind chamber.

Low bed pressure operation
  • By particle optimization, the operating bed pressure can be decreased to 3500Pa, which effectively saves operating costs and greatly reduces the oxynitride generated.

Model Rated Thermal Power t/h Working Pressure MPA Rated Output Water Temperature ℃ Thermal Efficiency %
DHX35-1.25-AⅠ 35 1.25 194 89
DHX50-1.25-AⅠ 50 1.25 194 89
DHX75-1.25-AⅠ 75 1.25 194 89
ZZ-35/3.82-AⅠ 35 3.82 450 89
ZZ-50/3.82-AⅠ 50 3.82 450 89
ZZ-65/3.82-AⅠ 65 3.82 450 91
ZZ-75/3.82-AⅠ 75 3.82 450 91
ZZ-75/5.3-AⅠ 75 5.3 485 91


“Manufacturing Waste Heat Transfer Products To Save Energy”our heat transfer programs and CAD engineered designs, we have developed fifteen product lines with over 2,350 pre-designed industrial heat transfer models. We are also especially dedicated to a primary investment in our associates with their manufacturing technology, quality improvements, and innovative cost reductions. As a result,“Manufacturing Waste Heat Transfer Products To Save Energy”transfer fluids “Manufacturing Waste Heat Transfer Products To Save Energy” EXHAUST HEAT RECOVERY Incinerator/High Temperature Recovery Series – ITR Heat Recovery Silencer Radial Series – HRSR Exhaust Steam Generator Series – ESG U-Tube Recovery Series – UTR1 Heat Recovery Silencer Axial Series – HRSA U - Tube Heat Recovery Series

Cain Industries | Finned Tubing“Manufacturing Waste Heat Transfer Products To Save Energy” There are many different types and methods of fin to tube attachment. Cain Industries has accumulated years of experience in the field of waste heat recovery from our industrial combustion exhaust product lines.Industrial Heat Recovery | Cain IndustriesThe same transfer of heat occurs between the fin tube and heat sink. The heat sink is completely isolated from the exhaust gases and remains pure. Cain Industries dedicated years of research and development to create industrial heat recovery equipment that performs consistently in the most brutal of exhaust heat environments.UTR Cogeneration Heat Recovery SeriesThe rugged heat transfer core is made from SA178 boiler tubing and .25" thickness high grade carbon steel heater assemblies. The heat transfer materials can also be constructed of all stainless steel when exhaust temperatures entering exceeds 1,250°F or when liquid temperatures entering are below 120°F.

Waste Heat Recovery Methods And Technologies - Chemical A heat pipe is a heat transfer element that can quickly transfer heat from one point to another with merits of high efficiency and compact size. Its heat transfer coefficient in the evaporator and condenser zones is 1,000–100,000 W/m 2 K, and its thermal resistance is 0.01–0.03 K/W, thus leading to a smaller area and mass of a given heat Heat Transfer System - Process Heating ManufacturerHeat transfer systems or also known as thermal transfer systems or Temperature Control Units, are designed to provide indirect heat to processes using a thermal transfer fluid. Thermal Transfer fluids include water, glycol, water-glycol mixtures, and thermal oils. Heat transfer systems provide heating and cooling of exothermic processes.6 cost saving ideas for manufacturing | npowerRecover waste heat. A large proportion of the energy used by furnaces is lost either in the flue gases or through the hot product. If this heat can be recovered and re-used in the process, then less energy will be required. More words of wisdom. Ensure that operation of your furnace is properly aligned to your production schedule.Waste heat - WikipediaWaste 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