Double-circuit Gas-fired Burner with Controlled Heat Power

AbstractMass loss (ML) of wood caused by thermal degradation is one of the most important features of the thermal treatments and referred to as an indicator of intensity and quality of the process. The ML is proportional to the quantity of the effective heat power exchanged during the treatment process, represented by the area of the temperature profile versus time during the process. In this paper a model for the ML prediction based on the relative area was discussed. The model proposed an analytical solution to take into account the non-linear trend of ML when plotted versus temperature and time as observed in isothermal experiments. The model was validated comparing calculated and measured final ML of samples treated during thermal modification tests with different temperature profiles. The results showed that the relative area calculated in a transformed time-temperature space improves the correlation with the measured ML.

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Monitoring the course of early-age reactions in alkali activated aluminosilicates

MATEC Web of Conferences ◽

10.1051/matecconf/201928202056 ◽

2019 ◽

Vol 282 ◽

pp. 02056

Author(s):

Miloš Jerman ◽

Vratislav Tydlitát ◽

Robert Černý

Keyword(s):

Heat Flow ◽

Sodium Hydroxide ◽

Water Glass ◽

Early Time ◽

Early Age ◽

Heat Power ◽

Reaction Heat ◽

Flow Calorimeter ◽

Isothermal Heat Flow Calorimeter ◽

Alkali Activated

In this paper the reaction heat development of alkali activated aluminosilicates is studied by an isothermal heat flow calorimeter. The highest reaction activity is observed during two hours after mixing. The hydration heat power at early time is influenced mainly by the composition of tested mixtures involving ceramic dust as precursor and different amounts of sodium hydroxide and water glass as activators and by temperature.

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Modernization of CHP Cycle in Sugar Complex

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.281.578 ◽

2013 ◽

Vol 281 ◽

pp. 578-581

Author(s):

Sanjay S. Bhagwat ◽

S.D. Pohekar ◽

A.M. Wankhade

Keyword(s):

Power Generation ◽

High Pressure ◽

Electric Power ◽

Sugar Cane ◽

Combined Heat And Power ◽

Power Ratio ◽

Heat Power ◽

Sugar Factory ◽

Power Cycle ◽

Surplus Power

Keywords: CHP, Bagasse, Heat Power Ratio, TCD Abstract: A huge potential for power generation from waste fuels exists within the sugar cane industry. Newly developed advanced high pressure boiler technology and utilizing modified combined heat and power cycle opens the way to fully exploit this potential, yielding more kWh’s of electric power per tonne of cane. This paper deals feasibility of bagasse based modified CHP cycle for 2500TCD sugar factory for surplus power generation.

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Double-circuit Gas-fired Burner with Controlled Heat Power

The Optimization of Thermoelectric Module Size in a Waste Heat Power Generation System

PROBLEMS OF WATER TREATMENT AT HEAT-POWER ENTERPRISES

ABOUT ENERGY EFFICIENCY OF DEAERATION OF TECHNOLOGICAL WATER FLOWS AT HEAT POWER PLANTS

ON THE POSSIBILITY OF COOLING FROM A HEAT POWER PLANT ON THE EXAMPLE OF YAKUTSK

Net Zero Energy and Combined Heat & Power for the Utility of the Future

Wind Power Accommodation Method for Regional Integrated Heat-Power System Considering Generation and Load Uncertainties

Simulation study on a novel solar aided combined heat and power system for heat-power decoupling

A model to predict the kinetics of mass loss in wood during thermo-vacuum modification

Monitoring the course of early-age reactions in alkali activated aluminosilicates

Modernization of CHP Cycle in Sugar Complex

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