CONTENIDO INTRODUCCIÓN CAPITULO I
1.1. 1.2. 1.3. 1.4.
PLANTEAMIENTO DEL PROBLEMA OBJETIVOS HIPOTESIS DISEÑO DE INVESTIGACIÓN
CAPITULO II. MARCO TEÓRICO 2.1. 2.1. MARCO MARCO NO NORM RMAT ATIV IVO O E INST INSTIT ITUC UCIO IONA NAL L 2.1. 2.1.1. 1. REGL EGLAMEN AMENT TACIÓN CIÓN AMBI AMBIEN ENT TAL 2.1. 2.1.2. 2. ESTÁ ESTÁND NDAR ARES ES DE DE CALID CALIDAD AD AMB AMBIE IENT NTA AL Y LÍMIT LÍMITES ES MÁX MÁXIM IMOS OS PERMISIBLES NACIONALES 2.1. 2.1.3. 3. ESTÁ ESTÁN NDARE DARES S IN INTERN TERNAC ACIO ION NALES ALES:: 2.1.4. INSTITUCIONES: 2.2. ANTECED CEDENTES TES 2.3. BASES TE TEÓRI ÓRICAS CAS 2.3. 2.3.1. 1. COMPO OMPOS SICI ICIÓN DE LA AT ATMÓSF MÓSFER ERA: A: 2.3.2. CONTAMINA INANTES A EV EVALUAR 2.3. 2.3.3. 3. PARÁME RÁMETR TROS OS METE METEOR OROL OLÓ ÓGICO GICOS: S: 2.4. 2.4. AMBI MBITO DE ESTUD STUDIIO 2.4.1. UBICACIÓN: 2.4.2. GEOLOGÍA REGIONAL: 2.4.3. GEOLOGÍA LO LOCAL: 2.4.4. MINERALIZACIÓN: CAPITULO III. MATERIALES Y METODOLOGIA DEL TRABAJO 3.1. MATERIALES 3.2. METODOLOGÍA 3.2.1. UBICACIÓN DEL AREA DE ESTUDIO 3.2.2. LOCALIZACIÓN DE LOS PUNTOS Y MTODO DE MUETREO 3.2.3. FRECUENCIA DE MUESTREO 3.2.4. PROCEDIMIENTO DE MUESTREO 3.2.5. MATERIALES MATERIALES PARA MUESTREO 3.2.6. MTODOS DE DETERMINACIONES ANALÍTICAS 3.2.. PROCEDIMIENTO CAPITULO IV. RESULTADOS E INTERPRETACIÓN 4.1. 4.1. PARA PARAME METR TROS OS METE METERE REOL OLOG OGIC ICOS OS 4.2. 4.2. RESUL RESULTA TADO DOS S DE LOS PART PARTIS ISOL OLES ES 4.2.1. PM1! 4.2.2. PM2." 4.3. 4.3. AN!L AN!LIS ISIS IS POR CADA CADA PARA PARAME METR TRO O V. CONCLUSIONES
VI. RECOMENDACIONES VII. BIBLIO LIOGRA"I "IA A
INTRODUCCIÓN
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CAPITULO I
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2..3.
PAR!METROS METEOROLÓGICOS T'(,'-$&/-$ $&(*7:-)0$ S( ))&$& ($0(,&/,& &$#%?,*& & /+# ( )#% ()($(+#% #+%*/*7#% () )*$& /( %( ,(*(,( &) 6,&# ( &)#, (%0(-*# () &*,( (+ /+ )/6&, 5 $#$(+# ((,$*+&#% &%- #$# )& (7#)/*@+ ($0#,&) 5 (%0&*&) ( *8# ()($(+# (+ )&% *%*+&% #+&% )*$9*&%. C#+%*/5( () ()($(+# $((#,#)@6*# $9% *$0#,&+( (+ )& ()*$*&*@+ ( )& $&5#, 0&,( ( )#% *0#% )*$9*#%. P#, (($0)#> &) ,((,*,+#% & )#% )*$&% $&,# ?,$*#% (% (*,> ( &)&% ($0(,&/,&%= )*$&% A (+ )& )&%**&*@+ ( ]^00(+H> $(%# ?,$*#% )*$&% ($0)&#% # )*$&% C (+ )& )&%**&*@+ ( ]^00(+H 5 $*,# ?,$*#% )*$&% ,-#% # )*$&% EH (%&$#% 8&*(+# ( )& ($0(,&/,& &$#%?,*& /+# ( )#% ,*(,*#% 0,*+*0&)(% 0&,& &,&(,*&, () )*$&. R$+)$0)% *#$- R&*&*@+ %#)&, (% () #+/+# ( ,&*&*#+(% ()(,#$&6+?*&% ($**&% 0#, () S#). E) S#) (% /+& (%,())& /5& %/0(,**( %( (+/(+,& & /+& ($0(,&/,& $(*& ( !!! ] (+ /5# *+(,*#, *(+(+ )/6&, /+& %(,*( ( ,(&*#+(% ( /%*@+ +/)(&,> /( 0,#/(+ /+& 0?,*& ( $&%& /( %( ,&+%#,$& (+ (+(,6-&. E%& (+(,6-& )*'(,&& () S#) %( ,&+%$*( &) (<(,*#, $(*&+( )& ,&*&*@+ %#)&,. E) S#) %( #$0#,& 0,9*&$(+( #$# /+ +(6,# () /&) ($*( (+(,6-& %*6/*(+# )& )(5 ( P)&+ & )& ($0(,&/,& 5& *&&. L& ,&*&*@+ %#)&, %( *%,*'/5( (%( () *+,&,,## 8&%& () /),&7*#)(&. N# #& )& ,&*&*@+ &)&+& )& %/0(,**( ( )& T*(,,&> 0#,/( )&% #+&% /),&7*#)(&% $9% #,&%> %#+ &'%#,'*&% 0#, )#% 6&%(% ( )& &$@%(,& /+&$(+&)$(+( 0#, (). L& $&6+*/ /( $*( )&
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2.8.2.
GEOLOGÍA REGIONAL E) C&))(@+ ( /&5)&%> /( &)'(,6& &) ,-# S&+&> %( /'*& (+,( )&% #,*))(,&% B)&+& 5 N(6,&> /( %#+ ,&$&)(% ( )& C#,*))(,& #*(+&). E+ ## (%& 9,(& &)#,&+
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MINERALIACIÓN L& $*+(,&)*&*@+ (% /+&$(+&)$(+( ( 0)&&K 0)#$#K*+ 5 #',(> (+ $(+#, 0,#0#,*@+. M*+(,&)(% (#+@$*#%: 6&)(+&. E%&)(,*&> &,6(+*&> '#,+*&> &)#%*+&> '#/,+#+*&> (%*'*+&> &)#0*,*&> (,&(,*&> (+&,6*&.
CAPITULO III. MATERIALES Y METODOLOGIA DEL TRABAJO
3.3. MATERIALES 3.3.1.
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3.4. METODOLOGÍA
3.4.1.
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LOCALIACIÓN DE LOS PUNTOS Y MTODO DE MUETREO
3.4.3.
"RECUENCIA P/+#DE ( MUESTREO M/(%,# K C&%(,*# ( A+/*)& E) *($0# (+ () /( %( ,(&)*@ () $#+*#,(# /( ( 24 8#,&%> 5 )& ,(/(+*& ( $/(%,(# %( 8*# (+ /+ %#)# 0(,*## ( *($0# 5 &%- 0#(, ((,$*+&, )&% &,&(,-%*&% () ( &)*& ( &*,( (+ () &%(,-# ( A+/*)& &*&.
Cuadro N° 2. Fechas de muestreo.
FUENTE
N` DE MUESTREO 1
C&%(,-# ( A+/*)& 3.4.4.
FECA 1K!K2!1"
PROCEDIMIENTO DE MUESTREO L#% &#% $((#,#)@6*#%>H 5 $/(%,&% PMK1! 5 2."H 0&,& )#% &+9)*%*% /(,#+ #$&&% (+ )& &'((,& () &%(,-# ( A+/*)&K&*& $#*7# 0#, () /&) )&% $*+&% 0,#((+(% ( (%( *%,*# 7*(+(+ &(&+# () &*,( ( *8# &%(,-# 0#, )# /&) %( 7*# #+7(+*(+( 8&(, () &+9)*%*% ( )& &)*& () &*,( () &%(,-# ( A+/*)&> %(6/*&$(+(
%(
*+%&)&,#+
)#%
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#,,(%0#+*(+(% &+# 0&,& )& #$& ( $/(%,& #$# 0&,& )#% &#% $((#,#)@6*#% ( )& #+& ( &/(,# &) $&+/&) () P&,*%#)
5 () /*0# $((#,#)@6*#
#$9+#%( (+ () 0(,*## ( *($0# *+*&#.
3.4.5.
MATERIALES PARA MUESTREO S( 8*# /%# () P&,*%#) #+/+# #+ )#% *),#% 5 0#,& *),#% 0&,& PMK1! 5 2." 5 )& (%&*@+ $((#,#)@6*&.
3.4.6.
MTODOS DE DETERMINACIONES ANALÍTICAS
ELEMENTOS Unidades
PM-10 PM-2.5
Método Separación inercial / filtración (gravimetría) Separación inercial / filtración
Expresión de cuantifcación Determinación directa Determinación directa
Unidades ug/m3 ug/m3
(gravimetría)
3.4..
PROCEDIMIENTO UBICACIÓN DEL PARTISOL =T(+*(+# (+ /(+& () *0# ( (%/*# & ,(&)*&,?
E+ (%( &%#> +/(%,# #'(# (,& &+&)*&, () +*7() ( $&(,*&) 0&,*/)&# PMK 1! Y 2."H> 0#, 0&,( ( )&% $*+(,&% 0,#((+(% ( &*& 5 (% 0#, ())# /( (**$#% #)#&,)# (+ () &%(,-# ( A+ /*)&
S( 0,#(( & )& #)#&*@+ ( )#% *),#%> L/(6# ( &',*, () P&,*%#) 0,#(($#% & (<,&(, )& 0)&&> 0&,& (%# +#% *,*6*$#% & )& $&+*& 5 &)&$#% ( &(+,# 0&,& /(,& #+ /(,&= L& /(,& & /%&, +# ('( %(, (%$(*&> 0#,-& &&, )& $&+*&.
E<,&($#% )& 0)&&> #+ $/8# /*&# 0&,& 0#(, *+6,(%&, )#% +/(7#% *),#%.
E+#+,&,($#% )#% ,(*0*(+(% *,/)&,(% )#% /&)(% (7*&,($#% &',*, ( $&+(,& ',/%& 5 (7*&+# #&, )& $&))&> (% +((%&,*# () /%# ( 6/&+(% 0&,& (7*&, #+&$*+&, )&% $/(%,&%.
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
4. PROGRAMACION DEL EUIPO PASOS 1.K T,&'&&,($#% #+ )& 8#,& () (/*0#. 2.K (+,&$#% & SAMPLE> 0&,& #+*6/,&, )& 8#,& /( /(,($#% /( ($0*(( & $#+*#,(#> +# &0#5&$#% ( )&% )(8&% () 0&+(). 3.K 5 )/(6# 6/&,&$#% )& 8#,& 5& (%&')(*&. Y ,(6,(%&$#% &) MENU 0,*+*0&). 4.K 5 &8- #)#&$#% )& 8#,& (+ /( *+&)*&,& () $#+*#,(# 5 )/(6# &0)&%&$#% )& )(8& (,(8& 5 () %-$'#)# ( #/$(+# &) $*%$# *($0#> 8&%& /( %&)6& WAIT. ".K (,,&$#% () (/*0# 5 (%0(,&$#% & /( ($0*(( () $#+*#,(#
5. ETRACCION DE LOS "ILTROS
R(&)*&,($#% )#% $*%$#% 0&%#% ( )& #)#&*@+ ( )#% *),#% 0&,& (<,&(,)#% +# #)7*&, /( %( (<,&( #+ $/8# /*&#.
U%&$#% /+& 0*+&> 0&,& (7*&, #&, () $&(,*&) 0&,*/)&#> 5 #')&$#% )& $/(%,& 0&,& (7*&, /( (%( $&(,*&) %( *%0(,%( (+,# () %#',(. C(,,&$#% () %#',( 0&,& /( )& $/(%,& 0(,$&+(& (%9*& 8&%& /( %( ))(7( &) )&'#,&#,*#.
6. TRASLADO DE LAS MUESTRAS AL LABORATORIO PARA SU ANALISIS
S( ('( (+(, (+ /(+& /( ## *),# ('( %(, 0(%&# &+(% ( #)#&,)# &) P&,*%#)> 0&,& 0#(, #$0&,&,)# #+ () 0(%# *+&)> 5 &) 0(%&,)# %( ('( ,(&)*&, 3 7((% 0&,& (+(, %(6/,*& () 0(%# (<&#.
L)(7&$#% &+&)*&, &) )&'#,&#,*# +/(%,&% $/(%,&%> (+ )&% /&)(% ('($#% (%0(**&, )# %*6/*(+(:
P(%# *+&) ( *+**&) () *),#. U'*&*@+ #+( %( ,(&)*@ () $#+*#,(# ##,(+&&% (%0(**&%H E%0(**&, /( /(,($#% /( &+&)*(+.
F*+&)$(+( %( #$&+ )#% ,(%/)&#% &+# ( )&% $/(%,&% 5 )#% &#% $((#,#)@6*#% ( )& #+& 0&,& %/ ,(%0(*7# &+9)*%*%.
CAPITULO IV. RESULTADOS E INTERPRETACIÓN
4.4. PARAMETROS METEREOLOGICOS 4.5. RESULTADOS DE LOS PARTISOLES 4.5.1. PM1F TEMPERATURA
PRESION
44!.4 PESO INICIAL =?
Q. PESO "INAL =?
!.14""4
!.14"2
CONCENTRACIÓN =/K(3? TEMPERATURA 1.!" 44!.4
V&+ =(3?
PRESION Q.
PESO INICIAL =?14. PESO FINAL 6H
!.14334"
!.14444"
CONCENTRACIÓN =/K(3?
12.! V&+ =(3?
14.
4.5.2.
PM 2. 5