Autor:
Butt, E.W.
Rap, A.
Schmidt, A.
Scott, C.E.
Pringle, K.J.
Reddington, C.L.
Richards, N.A.D.
Woodhouse, M.T.
Ramírez Villegas, Julián
Yang, H.
Vakkari, V.
Stone, E.A.
Rupakheti, M.
Praveen, P.S.
Zyl, P.G. van
Beukes, J.P.
Josipovic, M.
Mitchell, E.J.S.
Sallu, S.M.
Forster, P.M.
Spracklen, D.V.
Combustion of fuels in the residential sector for cooking and heating results in the emission of aerosol and aerosol precursors impacting air quality, human health, and climate. Residential emissions are dominated by the combustion of solid fuels. We use a global aerosol microphysics model to sim...
Enlace original:
https://cgspace.cgiar.org/handle/10568/71228
Butt, E.W.
,
Rap, A.
,
Schmidt, A.
,
Scott, C.E.
,
Pringle, K.J.
,
Reddington, C.L.
,
Richards, N.A.D.
,
Woodhouse, M.T.
,
Ramírez Villegas, Julián
,
Yang, H.
,
Vakkari, V.
,
Stone, E.A.
,
Rupakheti, M.
,
Praveen, P.S.
,
Zyl, P.G. van
,
Beukes, J.P.
,
Josipovic, M.
,
Mitchell, E.J.S.
,
Sallu, S.M.
,
Forster, P.M.
,
Spracklen, D.V.
,
[The impact of residential combustion emissions on atmospheric aerosol, human health, and climate]
,
The impact of residential combustion emissions on atmospheric aerosol, human health, and climate
