The influence of the initial moisture content of cedar needles on the time characteristics of the ignition of coal-water suspensions

Capa

Citar

Texto integral

Acesso aberto Acesso aberto
Acesso é fechado Acesso está concedido
Acesso é fechado Somente assinantes

Resumo

The results of experimental studies of the influence of the initial moisture content of cedar needles on the time characteristics of ignition of coal-water suspensions based on D-grade thermal coal are presented. Biomass (fallen and freshly cut cedar needles) was used as an additive accelerating the ignition process. An analysis was carried out of the influence of the initial moisture content of the plant additive in the composition of water-soluble suspensions on the ignition delay times. It has been established that the initial moisture content of cedar needles does not have a significant effect on the time characteristics of the fuel ignition process (the difference does not exceed 4%), but the addition of needles leads to a significant reduction in the ignition delay times (the VUS ignites faster on average by 15%).

Texto integral

Acesso é fechado

Sobre autores

D. Malyshev

National Research Tomsk Polytechnic University

Autor responsável pela correspondência
Email: dmitry.mlv@gmail.com

School of Energy Engineering

Rússia, Tomsk, 634050

Zh. Kostoreva

National Research Tomsk Polytechnic University

Email: zhanna.kostoreva@yandex.ru

School of Energy Engineering

Rússia, Tomsk, 634050 

M. Tamashevich

National Research Tomsk Polytechnic University

Email: maksimtamashevich@mail.ru

School of Energy Engineering

Rússia, Tomsk, 634050 

A. Poznakharev

National Research Tomsk Polytechnic University

Email: asp71@tpu.ru

School of Energy Engineering

Rússia, Tomsk, 634050 

Bibliografia

  1. Рахманкулов Д.Л., Николаева С.В., Латыпова Ф.Н. и др. // Баш. Хим. Ж. 2009. Том 16. № 2. С. 22.
  2. Nyashina G.S., Kuznetsov G.V., Strizhak P.A. // J. Clean. Prod. 2018. V. 172. P. 1730.
  3. Syrodoy S.V., Kuznetsov G.V., Zhakharevich A.V. et al. // Combust. Flame. 2017. V. 180. P. 196.
  4. Shen DK., Gu S., Luo K.H. et al. // Fuel. 2009. V. 88. Р. 1.
  5. Кузнецов, Г.В., Барановский. Н.В. Прогноз Возникновения лесных пожаров и их экологических последствий. Т.: Изд-во СО РАН, 2009. 301 с.
  6. Рыжова Н.В., Шутов В.В. Физика древесины: учебное пособие. К.: КГТУ, 2009. 75 с.
  7. Бех И.А., Кривец С.А., Бисирова Э.М. Кедр — жемчужина Сибири. Т.: Печатная мануфактура, 2009. 50 с.
  8. Malyshev D.Yu., Kuznetsov G.V., Syrodoy S.V., et al. // Appl. Therm. Eng. 2020. V. 170. P. 1.

Arquivos suplementares

Arquivos suplementares
Ação
1. JATS XML
Baixar
2. Fig. 1. Schematic diagram of an experimental biomass dehumidification plant (1 – stainless steel working chamber, 2 – heating element, 3 – pan with cedar needles, 4 – drying cabinet control unit, 5 – electronic scales, 6 – personal computer).

Baixar (85KB)
Metadados
3. Fig. 2. Diagram of an experimental installation for determining the ignition delay times of coal–water suspensions (1 – metal holder, 2 – WUS drop, 3 – furnace control unit, 4 – high–temperature furnace, 5 – movable platform, 6 – high-speed chamber, 7 - guide rails of the movable platform, 8 - exhaust ventilation).

Baixar (149KB)
Metadados
4. Fig. 3. The main stages of ignition and combustion of a coal-water suspension (46% coal, 4% fresh cedar needles, 50% water) with a characteristic initial size of 3 mm in a high-temperature environment (Tg = 1273 K).Gorenje et al.

Baixar (107KB)
Metadados
5. Fig. 4. dependence of the ignition timing of coal – fired fuels on the temperature of the oxidizing medium at different humidity of the plant component (1 – natural, 2 – dry) and different mass concentrations (1 – 50% water, 50% coal grade D, a – 50% water, 48% coal grade D, 2% cedar needles, B – 50% water, 46% coal grade D, 4% cedar needles, B-50% water, 44% charcoal grade D, 6% cedar needles).

Baixar (192KB)
Metadados
6. Fig. 5. The dependence of the ignition delay time on the characteristic size of the VUT droplet (50% water, 46% coal, 6% cedar needles), at different needle grinding tones (Tg = 1073 K).

Baixar (63KB)
Metadados
7. Fig. 6. Dependence of changes in the weight of cedar needles (a – freshly cut, b – fallen) from the time spent in the drying cabinet t at a temperature of 373 K.

Baixar (107KB)
Metadados
8. Fig. 7. Dependence of the change in the dimensionless mass M of cedar needles (1 – freshly cut, 2 – fallen) from the dimensionless time spent in the drying cabinet t at a temperature of 373 K.

Baixar (63KB)
Metadados
9. Fig. 8. Dependence of the speed (a) and power (b) spent on drying cedar needles (1 – freshly cut, 2 – fallen) from the time spent in the drying cabinet t at a temperature of 373 K.

Baixar (117KB)
Metadados

Declaração de direitos autorais © Russian Academy of Sciences, 2024