• 1 – 20 t/h
  • 0.7 – 2 Mpa
  • Industrial
  • In Stock
  • Nature gas, coke oven gas, biogas, methanol, liquid propane gas, diesel, heavy oil, light oil, crude oil, etc.
  • Heat supplying, chemical, food, textile, printing and dyeing, cigarettes and tobacco, fodder, pharmacy, building materials, brewery, rubber, hospital etc.

WSN series gas / oil fired industrial horizontal steam boiler is a kind of safety and high efficiency heating equipment with fully automatic intelligent control system. It’s a boiler shell type 3 passes wetback oil/gas fired boiler. Usually, the WNS series steam boilers widely used for industry production and processing, such as textile mill, medicine industry, food & beverage industry, chemical industry, garment industry, food processing industry, and wood processing industry, moreover, it could be used for central heating in enterprise, hotel, hospital, civil architecture, etc.

Carnot Cycle Efficiency - an overview | ScienceDirec

The PAFC was one of the first fuel cells to be developed commercially. It operates at a moderate temperature of 150°C–200°C, allowing it to produce low-grade heat for hot water and space heating. In common with most fuel cells, the PAFC requires hydrogen and oxygen to be supplied to its electrodes.

Carnot Cycle - an overview | ScienceDirect Topi

The heat pump is one of the practical applications of the Carnot cycle, whereby it is possible to extract heat from the ambient (low-temperature heat source) and supply it to the environment that is to be heated (heat sink). This heat transfer is done in the opposite direction to that that occurs spontaneously in nature.

A Carnot heat pump is to be heat a building in th

2019-9-3 · A Carnot heat pump is to be heat a building in the winter to maintain an interior temperature of 22 C. Heat transfer through the walls and roof is estimated to be 540 kJ /hr per degree temperature

Legtth Of300K Steam Boiler - mosaikbildnerei.

An engine absorbs 2000j of heat from a hot reservoir and . A Carnot engine uses a steam boiler at 100 C as the high-temperature reservoir. The low-temperature reservoir is the outside environment at 16.5 C. Energy is exhausted to the low-temperature reservoir at a rate of 185 W. (c) How much steam will it asked by on . Free Chat

The Carnot Cycle - Watt

The Carnot cycle, proposed by French engineer N. L. Sadi Carnot in 1824, consists of a series of four reversible processes. Because the cycle is entirely reversible, it is the most efficient means of converting heat provided to the system into useful work.

Chapter

2015-7-21 · Heat Engine A heat engine is a device that takes in energy by heat and, operating in a cyclic process, expels a fraction of that energy by means of work A heat engine carries some working substance through a cyclical process The working substance absorbs energy by heat from a high temperature energy reservoir ( Q h) Work is done by the engine ( W

A Carnot heat pump is to be heat a building in th

2019-9-3 · A Carnot heat pump is to be heat a building in the winter to maintain an interior temperature of 22 C. Heat transfer through the walls and roof is estimated to be 540 kJ /hr per degree temperature

Heat Engines, Entropy, and the Second Law o

A Carnot heat engine uses a steam boiler at 100°C as the The efficiency of a Carnot engine doing 150 J of work as high-temperature reservoir. The low-temperature reservoir it transports energy between these constant-temperature is the outside environment at 20.0°C. Energy is exhausted baths is 60.0%.

316 | Thermodynamics PROBLEMS* REFERENCES AN

2°C FIGURE P6–99 6–100 A Carnot heat engine receives heat from a reservoir at 900°C at a rate of 800 kJ/min and rejects the waste heat to the ambient air at 27°C. The entire work output of the heat engine is used to drive a refrigerator that removes heat from the refrigerated space at 5°C and transfers it to the same ambient air at 27°C.

Coefficient of performance - Wikiped

2019-9-7 · The coefficient of performance or COP (sometimes CP or CoP) of a heat pump, refrigerator or air conditioning system is a ratio of useful heating or cooling provided to work required. Higher COPs equate to lower operating costs. The COP usually exceeds 1, especially in heat pumps, because, instead of just converting work to heat (which, if efficient, would be a COP of 1), it pumps

316 | Thermodynami

2009-9-5 · tures of the high- and low-temperature reservoirs, respectively. A heat engine that operates on the reversible Carnot cycle is called a Carnot heat engine. The thermal efficiency of a Carnot heat engine, as well as all other reversible heat engines, is given by This is the maximum efficiency a heat engine operating between two reservoirs at

ModelRated steam capacity(t/h)Rated working pressure(Mpa)Rated steam temperature(℃)Maximum transport size(m)
(L×W×H)
WNS1-0.7-Y(Q)10.71703.3×1.8×2.1
WNS1-1.0-Y(Q)111843.3×1.8×2.1
WNS1.5-1.0-Y(Q) 1.511843.0×1.8×2.0
WNS1.5-1.25-Y(Q)1.51.251943.0×1.8×2.0
WNS2-1.0-Y(Q) 211844.4×2.1×2.5
WNS2-1.25-Y(Q)21.251944.4×2.1×2.5
WNS3-1.0-Y(Q)311844.6×2.3×2.6
WNS3-1.25-Y(Q)31.251944.6×2.3×2.6
WNS4-1.25-Y(Q)41.251944.7×2.5×2.9
WNS4-1.6-Y(Q)41.62044.7×2.5×2.9
WNS5-1.25-Y(Q)51.251945.3×2.7×3.3
WNS5-1.6-Y(Q)51.62045.3×2.7×3.3
WNS6-1.25-Y(Q)61.251945.9×2.6×3.0
WNS6-1.6-Y(Q)61.62045.9×2.6×3.0
WNS8-1.25-Y(Q)81.251945.9×2.8×3.1
WNS8-1.6-Y(Q)81.62045.9×2.8×3.1
WNS10-1.25-Y(Q)101.251947.7×2.8×3.1
WNS10-1.6-Y(Q)101.62047.7×2.8×3.1
WNS15-1.25-Y(Q)151.251947.0×3.1×3.6
WNS15-1.6-Y(Q)151.62047.0×3.1×3.6
WNS20-1.25-Y(Q)201.251948.3×3.4×4.0
WNS20-1.6-Y(Q)201.62048.3×3.4×4.0