• 2.21
  • 2.22
  • 2.23
  • 2.24
  • 2.25
  • 2.28
  • 2.291
  • 020601
  • kronos
  • 020603
  • AMBIENTE-RA85-SUSPENDIDA-copia
  • ambc100
  • ambient-kronos
  • arica3
  • toria5
  • VF-Novent-1200-drop-in-ssteel-with-ssteel-deflector-plate
MORSO 1126

MORSO 1126

Freestanding unit
  • Type: Freestanding
MORSO 1412

MORSO 1412

Feeestanding unit
  • Type: Freestanding
MORSO 1442

MORSO 1442

Freestanding units
  • Type: Freestanding
MORSO 1630

MORSO 1630

Freestanding unit
  • Type: Freestanding
MORSO 2110

MORSO 2110

Freestanding unit
  • Type: Freestanding
MORSO 2140

MORSO 2140

Freestanding unit
  • Type: Freestanding
MORSO 3610

MORSO 3610

Freestanding unit
  • Type: Freestanding
MORSO 5060

MORSO 5060

Build-in unit
  • Type: Build-in
MORSO 5660

MORSO 5660

Build-in unit
  • Type: Build-in
MORSO 6140

MORSO 6140

Freestanding unit
  • Type: Freestanding
MORSO 6148

MORSO 6148

Freestanding unit
  • Type: Freestanding
MORSO 6170

MORSO 6170

Wall hung unit
  • Type: Wall hung
MORSO 7642

MORSO 7642

Freestanding unit
  • Type: Freestanding
MORSO 7648

MORSO 7648

Freestanding unit
  • Type: Freestanding
MORSO 8140

MORSO 8140

Freestanding unit
  • Type: Freestanding
MORSO 8148

MORSO 8148

Freestanding unit
  • Type: Freestanding
MORSO 8170

MORSO 8170

Wall hung unit
  • Type: Wall hung
MORSO 8182

MORSO 8182

Freestanding unit
  • Type: Freestanding
MORSO S80

MORSO S80

Build-in unit
  • Type: Build-in

Slow Combustion Fireplaces

sc-sl-eco-sustainabilty-pic

 



The environment :

 

When a tree decomposes in nature it releases into the atmosphere a certain quantity of CO2 (carbon dioxide). This, however, is re-absorbed and used in the growth of new trees.


Biomass: Clean, renewable energy

The term “biomass” can refer to any material of organic origin (i.e. vegetable or animal), that has not become fossilised, and that can be burned to produce energy.

Biomass materials are renewable fuels since the CO2 emitted during their combustion does not add to the carbon dioxide already in the atmosphere. In the case of wood, the CO2 released is that which the tree has absorbed during its lifetime, and that would in any case be returned to the atmosphere when the tree dies, through the normal decomposition of organic matter. The burning of biomass merely accelerates the return of this CO2 to the atmosphere, making it available for use by new plant life. CO2 emissions from biomass fuels are therefore a natural part of the normal carbon cycle, and do not affect the balance between emitted CO2 and absorbed CO2.

The effective use of organic materials can make a major contribution to the production of thermal energy (heat). In medium and large systems these materials can even generate electrical energy, thus reducing carbon dioxide emissions in line with the requirements of the Kyoto protocol. 

Stove and fireplace technology explained
Primary air

Primary air is the combustion air needed to feed the fire and is generally delivered via a controllable air vent on the door of the stove.

Secondary air

Most slowcombustion fireplace with the exception of a few all have secondary air “air wash” systems. Pre-heated air is collected through a front air take and is jetted down the back of the high temperature ceramic glass. This system keeps any volatile by products of combustion away from the glass, improving your view of the flame picture. By running the stove at the correct temperature in conjunction with the correct fuel the glass will remain clear.

Teriary air is brought in from outside the stove and heated through internal ducting and injected via rows of holes into the top of the combustion chamber. This action causes the un-burnt gases (bi product of the fuel) to be re-ignited and burnt again producing extra heat and cleaner emissions. The stove must be burning at its optimum temperature (350°C) to achieve clean burning efficiency and to reduce emissions.

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