0 ˇˆ˜ ˘ˇˆ ˙˝ 1 ˇ 2* . & ( ˚ 32* · 2020-06-23 · 2-ph.d student of water...

12

0�� 1��2* �� .�&�� (�� 32*

�� !"#�$�� FFFF��%"� �$&' ��"(� $�!� �)�

))))I�� I�� I�� I�� [�[�[�[////�\�\�\�\//// K� LMK� LMK� LMK� LM �\�\�\�\////��////��((((

O�&P�O�&P�O�&P�O�&P� D��03 ��< )$ T�� T�� &�� -< 4��$ ��"2� .�� +D�7�2 *�� DEU �� V�2� � *��*� W�-< @� �(� .DEU @��

2� ��8��'( ��2 D�7�2 ��X�� 4D��03 *<�'��Y� �� )$ T�� "�� >�R<� .��'( @�� Z;Y��< �� +��2D��03 *� �&($ �!��" ��( .��'( W� @�� 4��U �� D�7�2 ��J ��"�� [�!73 � T��73 +��2 $ � *ECJ \��( � ��2� 4�� .+�#�1� @��

� T�� T�� <� *�� D�7�2 *�� W� � ��!( )$ � �0� � � �0� 4�( 4�� C2�3 � ��!3 :$ � �O"�]� [��U 2� .�'�� !( )$ T�� H �<� 3 *^� � 7�� *U�� +��0�8� ��_4��X�� D�7�2 +)$ ��Q�13 � @�� *� ��R :$ [�E 3 �H �� ̀J�N

*(�-< � T�� W� �D�7�2 *�� *� ��1� �� (� .��03 � D!J [�8 �� :�� +:��!3 ��!( )$ D�7�2 *�� [�E 3 a��< ��/ :�� T�� [EU b � ��< .G��M3 �<� �� @�� @��X�� 4��$ � )$ :I�_3 �� 2 ��] *�� :�X�� 1�<�

@� �Q�c T�� d�� +)$ �� $ ��03 �� )IQ�J�� Q�13 � � � �e*�� .

*?�)*?�)*?�)*?�) ��4��4��4��4 ��0��0��0��0 ::::1��E�5 B�'-�( ��7 J��.� BCD E � F��: �,�(CD 1�� B��: .

System Dynamic Model in Tehran Urban Water Management

Abdolrahim Salvitabar1 Mehdi Zarghami 2 Ahmad Abrishamchi 3

(Received Jan. 16, 2006 , Accepted Oct. 2, 2006)

Abstract Water management needs to decide for the water resources development project and future planning based on comprehensive and integrated views. One of the management tools is based on system dynamic approach. This technique has the capability of simulating complex water resource systems to support decision making. The undefined outcome of decisions is revealed through this methodology. The main objective of this method of simulation is its simplicity and rapid learning of system behaivior in present and future conditions. In this paper, the model for water resources and urban water demand was developed with dynamic system for evaluating the trend of resources and demands and the effective parameter on them. The feedback of urban water resources due to the economic, socio and environmental aspects of supply and demand brings about a complex system which can only be analyzed through integrated and dynamic views of the system. The results of the dynamic analysis of Tehran urban water system leads to a tool for understanding and visualizing the reasons of the shortages. This model showes the trend of water balance variation in future as well as the effect of management scenario such as interbasin water transfer, collection and treatment of waste water and demand management. Keywords: Integrated Water Resources Management, System Dynamic Analysis, Simulation, Urban Water Management.

FFFF��R�#6D� ��(T O�Q�$�� R]�1&1". : 3%A� ��: RST �D�*4# �� %'�$�� R�#6D� ��(T O�Q�$�� R]�1&1". : 3%A� ��: RST �D�*4# �� %'�$�� R�#6D� ��(T O�Q�$�� R]�1&1". : 3%A� ��: RST �D�*4# �� %'�$�� R�#6D� ��(T O�Q�$�� R]�1&1". : 3%A� ��: RST �D�*4# �� %'�$�� [email protected]

GGGG��^ �V ��/*= O�Q�$�� R+�� D�*4# O�P�$�� RST �D�*4# �� %'�$�� ^ �V ��/*= O�Q�$�� R+�� D�*4# O�P�$�� RST �D�*4# �� %'�$�� ^ �V ��/*= O�Q�$�� R+�� D�*4# O�P�$�� RST �D�*4# �� %'�$�� ^ �V ��/*= O�Q�$�� R+�� D�*4# O�P�$�� RST �D�*4# �� %'�$��

XXXX��^ �V ��/*= O�Q�$�� R+�� D�*4# O�P�$�� D� ^ �V ��/*= O�Q�$�� R+�� D�*4# O�P�$�� D� ^ �V ��/*= O�Q�$�� R+�� D�*4# O�P�$�� D� ^ �V ��/*= O�Q�$�� R+�� D�*4# O�P�$�� D�

1-Ph.D Student of Water Engineering, Science and Research Center, Azad Islamic Universiy, [email protected] 2-Ph.D Student of Water Engineering, Civil Engineering Department, Sharif University of Technology 3-Professor, Civil Engineering Department, Sharif University of Technology

��

13

�� c�9�* �� >=� ��-Y �* A@$ -� %�&�' * � �� 0' ��

�� "N1 O_��E �� !�N�* �,�0� !�� (��) 2;�� %��*j��F� %�J��$ � >��0Y %��,"* A>Y ��0� � 5 ��6� ��Q %��$�

#��$Q� �>�� ,�,"� �� ,�-Q .>�$��* � �* �-� (� �Q ,�H�� ? $ �� L�G� ! ��NQ\]of � !�J��^f^o * �Q �� M�U

$��*>R*�$G�� >(�) �-�*>��* ��6��) K XH� 5,- �C/�7 ��N��Q �� !��H��3* � �� 2��* E � ��* �+��$� ? ��Z �� >

%$�]\.[. �� NQ �� >S+* �� } D� %��,� �* � � ��1� � ��*��Q #Q �� } D� � �%$� 5.�� ? /�3�$� (� �Q 53H

�� NQ >�$�� %�NH ��H �* K$ �� >H " ��' �� * >-�� ,�� 3* �� %� %��$� ��H��0'�� A,��

�>,� 0H ]^�e[.>LY >* �� >� H�� A�� * -� �� Z ��3* �* � � #l�

�$��$� 2* E �� 9�� >-�* (�) � z�3U %�$� ��,�3� ��-� >.�* �-� ��,�� $ -�� ' �"-� ��H 2=N� �� 2Z %" ��* -*

!� �� $ �=L* �� A� +&H,� * 1 +6 !� =0� >��0' �� -�� '�0,-� * �� >&�' @��G� � >.�� ' 2�Z�� 1�� >=�

��* �� .� /� � �* -� R�E� >* �� * A��3* * ��7�* !�(�) >-�* %$� >�� ! � .��* s�*�� * -� ?0+� M +1 F� ��

� >H �� ;�� -�� %�0�� 5�* z��U M�U �* #"� ! �� ) >0H ��6�� 4H �� J�* �� "H� >H =� �� .�� * ��7�* w��L

,-H � �,+�� M +1 F� �� * 5,H�� ,��,X� �� * �-� ��,D� ��* � � � �� * � �� YJ: ��' %�$� >��H 7�� >�,�*� �� J��* � ��

>-�� ! "*� 5�&$ �� ]\Ai�o.[!��,�3� ! �"��1 +6 ?,� �-�� * -� !� $ < �31 * ��' >=�� -�� M �: ��

�0' M �U/7 ��* > �� .�: ;� �� >&�' �_!� /��E� 2�%$� 5,� K XH� �B�� .�: �� >Y 0� �.

� �"� �"� �JQ �� !� ��* ��4H ��" �} D� (��96� * �H� ! � �� * -� %��,3� � �� !��* %�$� .%��+E�

��"� �"� >� �6��T �>�* ,�� .� /�� !��* �� ! �} D� ��,�, A>LY .��:� � �� X� �� * -� �� 5� &�$� #l��"� %��,�� A

F�� * �� "� !�"� ��>�� %�$� 5��0H �� .2�Z 5�� !��* ��,� )��"� �"� �� L,� * � �� w��BH ��* >-�� #��$ >� �)\,� * .?,�#��$ >� �) �� =�� "� ��

��7� ��* �� >�� #��6^M��T� A>H ��H� ! ��"��1 +6 ! �� +1 F� �� !� /�E� � >Y 0� � 2��Y � >0��$'� ,�� 0H .��

1 System Dynamics 2 Feedback

�+1 F� w�� s$� ��"� �� .� /�� * -� ?,� � ��)>#��$ �� * ��W� 2��Y� .� /�� * -� M��T� ,H�� >* �� !��*

%$� 5,� 5�� +$� .��* ? D�H� M��W� ?,� �� }Z A�� !� ��W�� 5� &�$� ��0 j�: �W� 9�H � } D� %��,� �J�} 6 !�� ?,� 5,� �� $ �� J��* ��T�� 6� !�_%�$� 5,�� .��*

�� 5�J��Y >�� ?,�� 5�� W� ,��H�� :�� ;N��7 ! �� >��$�6 M��W� A!�"� �� %��,� A�� >��1� A>=�g1��,��

!� /��E� � >Y �0� � M��W� � #��$ 5�� * (� ' �� >�$��* �� ,-' !� $ .>� ��-b0� ?,� �� * ,H�� ? 0Y�>��T�A!��*

#�0/� >H ��N) �� !��_�� !�"� �� 25� &��$� ��"� �� $ ��.

/��;� *� 3�;�� &��;��< �� !�;�� &�4 ]�� => ?��

�� ?,� ! � �,�+�� %��,�� * �-� A�� >�7�* �� ?,�� !�� %�U/7 >� ��) ,-�� .?,�� _2�

M��T� �*M�U Z�DL !��7� * %�$�.��* ;�0' �� 5�� A!� $ ! �,� �) �GN�� H �(��) >�-�* 5,N�H #�0/�� "��

� =�� >��..,� 5,0Y �� w��A�� !� $ � �6� #��$ ��s�� >��L+6 �5,��-�� !��* �� 2�"�� !�� %��$�.��M �*�� 2�L3� >� �) #��$ �A?,� ! � �� 2* E � � ,-��:

?,� >H " ees$� ��$� 6iA� �-* �� w��2�L3� >� ��) A#��$ ? $ �� \]ae ��"� 5,�� %�$� ]v.[�� ?,�� * >�$��* M��T� �* -� A>H ' >1� �>H �H� �*k $� ! "��1 +6 �N�* ��!��

�� >��) .?,� >H " eI�,�+* s�$� ��,��o�� =0� ��1 $! " \]ai �\]]^ ��V��$ !g�1-=� %�$O $ � 2��0=� ,� ]a�p[.

?,� !�"� �� >� �)vs$� ��$� 6 ? $ ��\]]] ��>* �' �* ��0� K H ��_�5,� %�$� .�� ?,�� * >�$��* >� ��) #��$

>Y 0� � �!� /�E� ;��"� ��W� ��*�* -� ~*�� >�� ]][.?,��.,�� as��$� �� 9��-0��p�� $?\]]a ��

�V��$ >L� %��,"* >��0Y �%�� >�F�3� ,�-L�]�+�$� 5�� 5,� %$� ]\f[.�� ?,� ��,-O %0�E 2�=N� 5,� �'M� ��Y

%$� ��:%�+0 A%��,"*A!g�H�A��A��lA��w�� U -Y�

3 World3 4 Forrester 5 Meadows 6 Urban Dynamics 7 Target 8 Rotmans & De Vories 9 Institute of Public Health and Environment, Netherland

��

14

=�g1�*>.*(G��!�� +*��>~�*�� * ��_2>H ��H� �� 2� � ��!��* .� /� A!�"�� !�� N�' A>�+-�U !��H

��* �%� &Z 2Z�$ >�,� * .�*�� >F�3� �� 2� � ��!��* �$'��#�>=N7 ��&Z %�&�' #��$'� >*� %$� �>N�G* 9��H 2� � ��W��! "N-� >Y 0� � A!� /�E� �%�� >F�3� �*#��$ �� %$�.� �7 $ ��=L0Y �� ?,� I �,0Y ��*�� *M��T� �LE�#\

%$�.?,� �� >H " ^s$� ��H0�$e,� ��"�5�� N�� ? �$ \]]] �^ff^ ��? $ (�� !,�, ��_�5��' %�$� .

�� ?,�A�J��* ��>H �" k ��D� ��-�) (�G* A%+-�U A%�+0 !�� N'A�* -� ,�,X� ��) H �>��1� 2�L3� >�,�� 0H .

.�,�� >LU� �� ?,� �YM��,H��:! ��D�� w�� >� ��) #��$ !��* ?,�� Q #��$ ! ��

5,�b�) �* -� ��5�"* !�� O� O ?,� >H " ��+$� ;�?,� >L3��

>+$ ��!� $,-0H�� R* F� #��$ �* -� ��*M��U ?,�� >* �� * -� ��>L3�.�X��H �� !� $ .� /�� H� ��,U? $ 5,-�� * < �31

� �6� ?,� ��,U? �$ �� >�� N�H �� %��&�' ��Q ,��#"� �* ,��7 >�� ! "1 $ ! "N1 O �� ]\\[.

?,� �� H ' ��i2' �DF-� �� H ' �>�0�E ��N�' �=�� .��:� ��9 c�9* ��*%+$� \f��L�� L�' ��*�� 4H

>� ��.!��* �,�$� �*�� ?,� �DF-� !��?,�� >H �" 5� &��$� 5,�%$� .�� H ' ?,� nH�?,�� )A%�+0 A�� $ A!�� N' A��l A�� %�&�' A�� A!g�H� >��1� A� �,H � ��* -� ��,�,X� ��) H (

�� * M��U ��* #�� $�) ��4H >�� ..,�� ?,��A�� !� $ s*�� * �0'%��%�&�' �� H ' *! ��T�� 5,�0Y

>Y 0� ��!� /��E� ��;�� 5� �* ��6 ��? �$,U %�$� .5�� -$ !��* ! "�$ �$ �L�G�)M��T� ��Ak��$� ��&/��

A�J} 6 ,�� A!� /�E� ,��1� !g��H� �,��1� ��l (�� !� �$ 5,� %$� .�� H �� ?,� �BH NH ��0' � � !��* ,�1� !g�H� �9��H %6� ,�,� %�&�' �� "1 $!>�� !��* �� N' %$� ]\^[.

�� =0� � ��H0��$ ? �$ ��\]]a ��w�� 6 !��*

>* �� M,�� * -� >*� �2�L3� ! "�$ �$ >1 0Y� �� }�Z

��H 7�� 2��H �� /� 5�"* ,-�� ]\e[.5�JY �*�� H0��$ ,0Z� �? $ �� ^fff * 5� &�$� �� Aw�� 5�"* !��* �� ;�

1 Climate Change 2 World Water 3 Simonovic 4 Canada Water

�9�G� �� !��* ? �$ >*��) ��,-O �$2��5�� !��* ;�,�$ >$��* �� 6� �9��G� �� *��* ��$2�� !� ��$ ,��H��'

]\i[.?,� >�� ! �) #��$ os$� �v�� =0� !��* >�$��* M��T� %�&�' ��O �� >�� N'��O � X�� 5,�� %�$� .

M��W� >&-� �+$� ��$ >Y �0� ��!� /��E� ��* %��&�' ��O �� Y * >� "�H��BH ��* ��,� �DF-� %$� .�� ?,��A#��$ +� >��V�&1 ! � %�� A>�F�3� !� /��E� �>Y �0� � ��O �� "� 5,� �M��W� O� " �� H�* >��,� >$��* ,�� 5%�$� .��Z��

>� H�� ?,�A� �� * �� H �� !� $ M 0�0/� ��%�&�' ��O �� !��* ��,�%$� ]\o[.

��$�a!��* #�0/� !�� >�'� N� ��2Z��0' ��!��* �"� k� k ��p�� %1 �� !��H =�� >1,� >-�� *>� ��) #��$

��7 $ %$� .�� ?,� ! "�� L�G� %��,�� } D� ��,�� K�� >$��* 5,� �� H �M��W� "H� �*(� ' . =� ��* �� } D� >$��* 5,� %$� .��Z �� ?,� >� �H�� _�� H #�0/� !�� 2�E ��!�� #�0/� %$� ]\v[.

��) � k��]>1,� >-�� *>� �) #��$ !��* >�$��* 2=�� 2Z $ ��l �� '\f ��%1 �� %$O $ � �=�� 7 �$ ,�H� .�� ?,� *� � �*��T� #��LE� �� H� ��* 5�3H N��)!��

�l �� >��) .(� $�6 �l �� A2Z $ ��L!�%$ �) �?,� >-�� *>� �) #��$ ;0' >H � � �� !� �$ M��T� ��

�6�,��-� ��! "1 ��$ 5,��-�� >�� ,��-' .�� +1 F� ��E�� R��&L� #��$ ! � M YJ:� >� �6��T \\ *>� �) #��$ �%$]\a[.

�$�J' � 2$ '\^ >1,� �*K H �Y�9� �&�6\e ��"� 5��' ,�H� .�� ?,� �*��7� * �� !� $ ��*� ' �� !�&�6 ��!�� N'

;�� DF-� ��W�� M,�� * %��&�' ! ��"*� >��-�� >3F$ >��) .�� ?,� ��W�� H�* ! � �-�"* !� �$ !�� N�'

�� (� ' �&�6 ��* -��>*>$��* >�,-' ]\p[.��$\i �� =0� !��* %��,�� ,�� ) �� _,A,��

>1,� >-�� *>� �) #��$ ��7 $ ,H� .�� ?,� !��* ! ��"� ,-� #��4-� 5,�� >� ��) ��7�O ! �� A%��,"* A� /��E�

5 Erahi SD 6 Guo 7 Stave 8 Las Vegas 9 Ruth and Pieper 10 Cod 11 GIS 12 Cassel and Clausen 13 Field Phosphorus 14 Sudhir

��

15

s��3� %�� 6� ! �� >H ��H� #��4-� 5,�� %��$� .�� ?,�� >� ��,H�� H �� W� �� H�* ! � >��,� �� !� �$ ,�-' ]\][.

>G� N� ? $ �� 9�H\]]e >1,� !��* %��,�� _,,�� "� ��H ��7 $ %$� ]^f[.

��6\? $ �� \]]] >* �' !��* ?,�� !� �$ >� ��) ��_2%�� >F�3� %$� ��H .�� ' A>�� ?,� ! �� * >Y-�� _2��L�G� ��s��3� %�� _�5,�� %�$� .5,-��H �� A� ��' 5,�H�* 59� � ? �$ \]]v �� -* ";�� -�� #��$ "5�* %$� ]^\[.

�,-&1�^? $ ��\]]]A>1,� !��* %��,� >NG*��6 �* -� ��0LE �}Z 9��*� ��"� 5��Q %$� .M �U/7 �� ?,� M� �Y ,�H�

�� :?,� !� $ "F�3�! A5,�b�) %Q� N� >�� !�� H� �9�H ��4H ��6�� ! �� +� �H �,-O ]^^[.

��e�� =0� �? �$ �� ^ff\ %��,�� w�� ' 5� &�$� ;�9=� �� 9��*� �}Z ;� ,�H .��9�*� 5,�� "� ?,��

��* .J�7� 2Z �� !,-0H��-) ��$ ��* >��L� �� M�� $� �� %$� 5�* >3F$ ��]ê[.�i�� =0� �? $ ��^ffo #��$ >� ��) 2�L3� w��

>*�- �� !��* �� %��,�� ! "0�0/�� M��W� >$��* !��* 5��' 5� &�$� ,H� .A�� M ��$�� %�6�� (��96� ��W�� 5,� ��"� ?,�

�� &/� �� >-��_>� �,-']î[.��o? $ ��^ffo ��}Z �� -�"* ��/G� !��* >1,�

� ��$ 9��*� �� v��* ��=�� =�9=� � ��L' %��1 �� * !� %$� 5��' ��"� �L�G� � +&H .!� /��E� ! "N�-'�,H� ?,��

>� >�0' �� L�G� .� /� !��* ,-' .�*5�JYA?,�� A��W� >LU� �H 7�� * �� #�LE� ��T� 9�H>� �4H �� ]ô[.

�$ ��*= � ;La? �$ ��^ffo !��* #��$ >� ��) ?,�� * �}Zp5,�� E�� %�1 �� $ �� ' ,-�7 �$ .!��* ?,�� %��,�� R��&L� ��* ��}Z �� >��-�� >3F��$

M �YJ:� �� $ * >=�g1��,�� M YJ:�)� !� /��E� A>Y �0� �>$ �$ (%$� 5,� ��7 $ .>�� ?,� �� H��,!��* K�� >H ��N�) #�0/� !�� >��,� ! �� -$_' �-,]^v[.

1 Ford 2 Wolfenden 3 Huerta 4 Ho 5 Ewers 6 Sun Juan 7 Sahlke and Jacobson 8 Bear Basin

5��,"�X� ? �$ ��\eaf 1,��>��*!�� !� �$ >=�� -�� _2��"� �9� s�3� �� K�H ��96� � �-�� "� 5��' %�$� .�� ?,� � �6� ��T�� ! � #"� ?,� %3� ! "�$ �$ ?��-' A%��+0

?��-' A%+-U ? D�H� A�� ,3� ��' w�� (G* !�� N' ��"* ! "�� !� �*� >$��* 5,� %$� ]â[.

>E� U ? $ ��\epe >� �) #��$ ��!��* ?,� !� $ 5��"*

!��* �� G� �� 5� &��$� ��E �� .��L0 ~ �DH M�E ��

w�� !� $A�*(��96� %Y�$ �+$� ?,�� A!� �$ (��9�6�

� 0�Y� �* ?,� �* �W� %'� N� �*� '�~ �� WV� * �� H >� ��5� �� 0H .>H �$� � �X�� T� �� ?,�� >� �H�� K �XH� 9�1 �H�

A%�$ �Z �� w�� $ ! "�� 2��L3� ?,�� !� �$ 5��"*

!��* �� G�A��0 �95��' %�$�.! �"� � ?,�� !� �$ w��

2�L3� >� �) #��$ !��* ?��-' 2�$ �H 7�� $ �* ;��)

^^ff @+=�� H W �* !�� G� 5 O �0�H �+$� 5�� 5,�

%$�.��%�� "H � ��Y� ?,�� * ! "�� >�&L�G� ��O 2��L3�

A%�$ �Z ! "H�� !,Z �5��l %3U >X-$ 5,� %$� ]^p.[>1J �� N6� ? �$ ��\epe !��* 5��"* !��* ��! �,�$

>* E�* >1,� �*k $� >� �) #��$ ��_��',H]^][.�� ?,�� * >�Z�� >�� -$ ! � >��,� �! "�-3-� � ��6 ��? �0Y�

5��' � *%Y�$ w��) � *>��*2Z��L%�7��) .! �"��L* E 2�L3� %�$ �Z �! S6 !��/� ��!�9 � �L�G� #��$ �* �-�

�� ;�,$��! �� w�� %��H ��* ! "�� ?��,�� %��,� �� G� �,$ %$]ef[.�� =0� � >1J ? $ ��^ffo

#��$ >� �) 2�L3� ;0' �* A!�B�� +1 F� ��A�� 2�$ >* �,H�� #��$�� >��H9G� ,��-O ! ��)��b�� ,��* � �� b�� (!�� *

�� ' �H 7�� 5��' !� $ ��* %��H �� w�� >� �H�� ,�� ! "�� NH ?,H��]e\[.

7�6A�� 9�� *�6�JK� &��< 3�� 2Z�� ?,� !� $ ��w�� 2�L3� >� ��) #��$ ��* @�� %$�:�%7 -� ��+� ��L��#$� ! ��0H � ��]:�� 0H ��* ��0H ! �� 6� 5,0Y #��$ ��&� >�� .�� 0H ��91 *��,�Y� >�+E�� #�$� >0H ,H�A�=L* �BH �* � �6� >L' #��$ ��,�� T�� ,-��.

��+� ! ��T�� 5,0Y j�F� ��L��+� ~ �� * ��T��#$� ��0H %�LY �>1L+� ��* ��T��

9 Reference Modes

��

16

��+� ! �� ?,��%7 $ ��0H � �� !��* ?,��:�� 0H ! ��T�� H �5� �H� !��#�;�=&� 5,� ��$ �>-�� * ��0H %��LY �

>1L+� �~ �� * ��T�� 2=� >L� ' ��?,� #$� >��.�� 0H M �U/7 ��L,�-H � ��7\A! �� 6� A>�F7��l

~�� ... ? 0Y� >�� .�?,� !�� >��$��* � ��Y� ?,��:%�� ! �� >��&L�G� ,��-H � 2��L3�

A%�$ �Z ! "H�� A!,Z >* �� A ��T�� >* �� 7 $ A?,�� !� �� $ �*,�+ ��T��A>* �� ! �� F7 ��0X�^A!��* >�$��*

� ��Y� ?,� � � �� ]e^[.* �� ,+*>,�+* K �� ?,� � ��Y� !5��1 ' ��' ?,��* !%$ �� ) .

D�E��^;� *� ��; � &;�� => �!� :�% � �.5� �� ' => ��X

�H 7�� 2� � >3F$ �* -� R��: �� "� �"� �� A��' ! � � >�� "� zF$ �� >-�� * -� � �� .

�H 7�� R��: �� 5,�� #��4-� >�H9G� ! �,$ s$� �6 ! � ��&/�� "O �* 2H� � ? H ' A�11 s7 >�� %��,�� "�� H 7 �� .

"H %�6��$ >��' ! �,�$ �� ? �D�H� �H �1 e]f �� 1^pi >� @+=�� L�� ,� * .�H �1 $ %�6�� E�� ? ��D�H�aof @��+=�� L�� )p/^e��H W �� @��+=�� (

>� ,� * .��"� %�� >-�� 5�&$ �� >=�-� �� >LU� �*%��$� ��"� �"�� .? ��$ �� 2��E\eio�*5�&��$ �� %��

� %�$� 5��* !9�O H ��,D� >-�� * �� -� �� #"�$ %$� ��6 � (��96�)2=�\.(�� "� >�-�� * �-� (DH #"� ;N7 ! "1 $ >� �� ' !��: ��* A�� ;N�7 ? �$ ;��

)\ea] (>-�� of5��' �� "� �� ! } D� ,U�� %$�)2=�^(]ee�ei[.

�� "� %�� >��-�� 5�&��$ %��0��>� ��' � �* ��:

�2E�,Z ��if��"� �"�� .�/�� H ,U�� ! "1 �$;N7��"� %�� !�� N' >*� � �H ��"� %�� -U >*� � �H ��!�"� �J} 6 5,H��) ��-�.

�� * 5�JYA�� "�� %��,�� ,�� !%��0�� ,H�� :

1 Delay 2 Integration Error Test

�>��,�� ! "0�0/�� 7� �* >$��* � ��+� !�� 2�{� �0 j�: �� 5�&$ !�� "� �J} 6 !�� "� >-��.

�>�� >�*� �* -� �� 5� &�$� (��96� �Y * %�+0 ,�� T�� W� %7 -� �J�* !�� * -� �"� >*�%$� K��.

�=� } D� �6� !��* ��"� %�� >-�� * �� >� A,�H�� ,� * �� !�� H M +�� .�� -$ 5��"* �L�G� ! � �� * !��* � ��6� � �J��* ��6�� 4H �� >�$��* ,�� * >Y �0� � ! �� .��

?,� ;� �� ,� * >$��* �� * ��5,�-�� ! "1 �$ �� ) M��U��B* M�U.

�(��96� � ? D�H� �� 9��H � ��"� �"�� * �� X� ! �,$ �� }Z �� $ �A�� >0"� M��T� �J�* >*� �* -� ��"� �"� ,��7

%�� .,�--' �� "� 5,�-�� ! "1 $ � �H ,� * �' ,�, �* -�M� �Y �� ,H:�� ,$ )�� 6 �� !��L M�U ��((��9�6� A

�� * DZ �� 1 ,�$)��: !�� * ��/�G� � �J�} 6 j�� !�� N' �* 5,� ��&/� � �)(A!�� * 5�� ,$ %7 $

,H� �� H 7�� 7 ��$ �� D1 : ��H 7�� 9��*� ��}Z ! �� .* � ��N� M�U �* ,� * �* -� �� M� �&� A��,��

�� 0G� k �$� ��* ��' �� * -� �� 2* E � � �H �� ? $\iff ��,Z �* vff >� ? $ �� @+=�� L�� ,$� ,--']ee[.

5�� y��E� � �� .�/�� (��9��6� A%��+0 ,�� ! �� 5,-��96 � N6 A>1 �=N7 � �* !��"� !�"�� M ��$

%�$� 5�0H �� .�� * �-� #��$ >� ��) >�$��* < �31 ��,�* �� >-��5,-�� >-�* (�) � �� -$ �* � � * ! �

>�� .� /� � �* -� 20�3� ��,�� !��* >��$ -� ��9�*� ,�H��#�0/�� * M ��,��E� !��* ��H M�� 6� %��" ��E�

MJ=N�>�� ,� * .�$ !��* K�� ?,� �1 D� �� !�"� �� #�%$� 5,� 5�� +$� � ��"� #��$ >� �) 2�L3� �* >-�� "�.

L�� &�� => ?�� &��< 9� L��?2�� 5*��.% &�*��

2=� \A%�$� ��+1 F� �� >L�U� � �� 0H .2=�� >� 5,� N� �� 5�&�$ �� 5� &�$� �' �� "� %�� >�-��

%$� (��96� ? Z .>�� ,�,� ;N7 ! "1 $ �� (��96� �� E�� 0F� >�,*� ��,D� �� 5�&�$ ��,�� ) � �e>�� X� ,�-' .

5�&�$ �� ,�Z �� (�* %��*AzF�$ %�6� M��U ��* �� 7 ��W� ��* �� NH 5�&$ >�� >�,.: �* 5�&$ �� zF$�� s$

3 Safe Yield

��

17

0

50

100

150

200

250

300

350

400

450

1335

1335

1335

1335

1340

1340

1340

1340

1345

1345

1345

1345

1350

1350

1350

1350

1355

1355

1355

1355

1360

1360

1360

1360

1365

1365

1365

1365

1370

1370

1370

1370

1375

1375

1375

1375

1380

1380

1380

1380��

(( (( MC

MM

CM

MC

MM

CM

// // yryr yryr)) ))

��

��

��

��

��

��

*"+ $,

��-"�- ./

��0# 1 �� 2$,

6)'��,H�� * -� �� 5� &�$�� !��*�� ? $ �� "� �"�\eio � \epe@+=�� L�� @�Z �* ? $ ��]ee[

6)'/�� "� �"� �� ! } D� �� L�G� >*� �* -� #"$ ;�? $ #'>*� )\ep\(

Z �� H� $��,o/f%�$� 5��' %6� ��]ei�eo[.�� %�+�}� �� 2=�e! "1 $ !��* \eao � \epo %$� 5,� #$� .2=� �* � � *e$ ��V,�� >�� (�) ?� (��9�6� ��* �� * >�� ! "1 �$ �� '

��"� >�-�� A5�&$ �� %��* (��96� �X��H �� %�+0 �0' < 31 �* %6 � ,��7 >�1 Z �O >&�' � >.?�,� ��\%��+0

�� H�� .�/� � ��"� �"� � �$ .�/�� X��H �� &H �"�� H��_%$� 5,� �.� 0� ?�, �� ' �:\>� 5,� N� .�/�� A��

>: �� H��$ef? $ ��,Z i�H� �$ .�/�� 9�� *��* (��*�� p%$� 5,� �*��* ]hr AhtAhu�hx[.%$� �� 2* E ��=H

��,Z ,�� .J7�* �'o/e�� "� �"�� %��+0 !,U�� I ��D� �H� �$ ,�� * �� .�/� A5�� %N�� 5��* 5��0� ,�U��

%��$�]if.[2=�� i��0H >��"&� M��U ��* �� !��*

(� 0H �� ! } D� (��96� �� D� * � �}�� * �-� �%$� 5,� #$� ��"� ]ee.[

2=�i>� � NH ? $ ��,Z �� ' ,��\epf ��0' �� "�� %$� 5,� >*�.�� =0� � !�E �* �B�� 0H ;� ��-Y �* �

? $ ��\epe !��* (X-�$ !��,�� ) ��$#��!�"�� "�� +� ! �:A>-6 %�� A>F�3� A!� /�E� ?JD��$� A>Y �0� � �

>��90�� "-N��) ��' ,�H �!��* ��0'>��' ;�� "H�

�7 � !�� -�� +� ,H�0H]i\[.!��* R�&L� �� +� ��,�$� �* ;� �7 � >L' !��* � �* !��,� ) �� ;� #��$ ��

!�"�A;�-�$� ?,�� !� 6 R* F� �* ?,�� !� �6 >H�,�0�\

�7 $��5,�*�!�� ;��+�� 7 � )��!��,

1 Mamdani

�� 1 � �� ! �,$

; ,$��'

؛ 209/4 25% (MCM)

; ��>-��

؛ 212/64 25%(MCM)

؛ 428/5 50% (MCM)

��

18

��ان� �,�0 ز.)-% ,+* $ب �)ر&"% $#"!ان د��

10641066

106810701072

10741076

1375

1376

1377

1378

1379

1380

1381

1382

1383

1384

ز.)ن

ر&�) *د

+,از

�5.6#

$ب*+

,

��.

7&رد

�و9

��.

7&رد

�و9

��.

7&رد

�و9

��.

7&رد

�و9

��.

7&رد

�و9

��.

7&رد

�و9

��.

7&رد

�و9

��.

7&رد

�و9

��.

7&رد

�و9

��.

7&رد

�و9

6)'7�? $ �� "� �"� >-�� 5�&$ >* �� zF$ M��T� \eao �\epi ]ei[

9��2��! "1 $ >: �� H��$ .�/� � ��"� %�+0 \eio � \eaf]ev�e][

9�� .2�1)�```�!% (=> �%b�� B�C�

)W1)�� J��(�%�� B�C�

)��* *� ��(*

\eio ^a^f ]p]]\eoo ioef eiv ^f] \eo] oioi iie ^^^ \evo vfi^ oi^ ^ii \eaf viao vp\ ^pp \eao vao] apf eo^

*>�0Y 9�$ ! S6 .�/� �� l

6)'D�� D� ��"� �� ! } D� � �]ee[

6�%��<�X�c

=>

�X��=>

0

500

1000

1500

2000

1340 1350 1360 1370 1380 1390 1400 1410

��J�

�W

1)��

��

9��

9��

&%�� &V�*�� => de�&��*�� '� ��V�>

��*�d

e��

=>f

�!�*�

)��

�(

��

19

2�' 9��HA��*�� %�S�Y !� �6 !��* �� 5� &��$� ?,�� *9�

��+� 5,�� %�$� . �� +� �?,�� >�Z��: 5,�� * M��U

!��* !�� "�� "� �* 5� &��$� �� 5�� ! �� !� �� ? �$

\eei �� \ea] ��* � �' ��6�� ,H,�� . ?,�� X��H R��:)2=��o(A$#�� "�� ,��*� �� %�+�}� ��,�� )

��E %�� >�1� �� 7�� if ,�H�� $ >�1�9H �,��) ��' ��* !��: ��' �� 7�� of #��$ ��*9� �� %�1 Z

�0�H ��,� ) ��E %�6�� .>1 �0�Z� M��T� ��' %�$� ��'� � � ��>�� "� �"�� 5,��-�� .� /�� -b0� � �* ��-� �� ,��H��

�� ) �� ;�� L�G� M��T� � ,�� H �� ,-�� * �� #��$ 2��' ��=L0Y !�� * >�� &�� M��W� .��

(��) A#��$ >� ��) 2��L3� w�� >L��U� ��*� ��' ��E�� >��-�* >� 5,-�� ! ��0H M��T� ,� *.

L�/�9�� 5�� >�-�� * -� #��$ ! �) ?,� ! �� "� .� /��

%$� �� j�� *:\��"� >-�� * -� #��$ ! ��:��"� ? 0� �� E�� 1� M Y &�� -�� * >1 0� ��7�$ �H 7�� * >E�� /Z ��' �H 7�� * >*�l �� %�� * >*- �� ! �,$ �� >1 D�H� ��A"�� 5��,�3� �* ��' � � ��1 �

%$� 5,� ��3� �� 27�� 9�H ��"�.^��L' 2� �� "� !�"�� .� /�� #��$ ! ��

!� .�/�� 2� �� "� �"�� 5��,3� �� * -� � +&H � �,�--'%$� >F�3� %�� !�� N' A>�+-U A9�$ ! S6 A!�"� ��.

e�? �$ R�6� � �� >H �H� � >+��: 2��Y M��T� A>H �� \iff�� ,�� >� ��E 2�L3� � >$��* .

L�7�� &�*�� 9�� ; � �� ;' => ��;��< 9�� 5gJc *��.% 3�*�&��J1�

?,�� (�� 2� �� "� >�-�� .� /�� * �-� ?,� �J��* A>*� � �H A%�+0 A>3F$ �� G� A>-�� 9G�

%$� %��,� � �* � ��.?,�� ?,� �� ! � �"H� ! ��T�M� �Y A��"� !�"� �� ! �) ?,� �� ,H�:

L�7��3�� !�&�� => � ' A.��* �� A�H 7�� A>�,H� * ! ��T�� * 5,--' ��T� �* -� 2� � A>=�1��,�� R��: �� T� A!�� N' .� /� �� >�N��*

U � !�� N' A!�"� .� /� �� >� H >�N��* ! "*� �* -� � >�+- � �� s��$� >��-�� LG� ! ��T�� * 5,��--' ��LG�

�0NO A "� O s$� ��LG� A>=�1��,�� %�$� M��-E � �� .��* K�� %$� �'�]fs$�� D* � �"� O s$� ��"� 5�&$ ��LG� ,U��

%��$� �0N��O � M ��-E]ei[.� �� R��: �� LG� � ��T� T�� M�U �* >=�1��,�� * �� >� �� ?,� �* KL+� � �� .

�� 5,N�H ��"� ��+1 F� �� >�-�� >=�1��,�� ?,� 5�� X=� M�U �* >-�� !�\%$� 5,� ��6�� 4H��.

L�7�/�&Ke� => ��V� 3�� * #��$ �� T�� M�U ! ��* A�� !�B1� ;�� * �GN��

� � � �� G� �� >� ��=H� ��,* A,-� 0H ?,� ��* %��H�� ,� 0H >��,E� �,$ �� G� !� $.

L�7�7��1.2 �� >+* �� A%��$� ��"� �"�� >L��U� >��} D�� ' %��+0 �� !�� * �� A>�,H� �* ,�� AM� "� A,1� ��H ! ��T��

�� 0' �W� � �&H*�� 9�� c>� �� ,� *.

L�7�D�X��=> �� } D� 2� � >�� >�+-�U � !�� N�' A!�"�� ! � ,�� * .� ��H

�� ,+� �� >+* � %+-UZ,�Z�� s�$�� H � >�+-�U ! �, >� ,� *.� !�� N�' %$� �� >}�� 2� � !�� N' � �H !�B1�

� �=� �� !��* .�/� >� ,� * .�� } Z ? �Z �� !�� N�' � ��H >� �� >-�� 5�&$ �� J�} 6 #��$ ��,Z� * >1�

�* !�"� � ��) �* >-�� !�� N' �� /G� ��,�,Z�� ' ,��7 ��T� �J} 6 ��&/� ! �.

L�7�L�� ' =hX�4 3�� 0 #��$ ��,Z� * ��"� !�"�� J�} 6 ��&/�� !��A�*�

�� >��-�� 5�&��$ ��* !�"�� .� /�� >�N��* �� &H ��, ' !�� N' � �H �* 5,� ��&/� �J} 6 �B�� .�: �� 6 � (�

>� 5�� C /�7� �� .�0 #��$ ��,Z� �J} 6 ��&/� � !�� ? $ �� "� �"�\epf (�) � y�� >� >-�* ? �$ � ��\iff

,* � ��.

L�7�Y�=> �h�� #��$�� A} D��! � .�: ;� �� .�:

1 Lumped Model

��

20

6)'L�? $ �� "� �"� �� * -� !��,� ) �7 � M��T�\eei � \ea] ]i\[

Perculation

Ground Water

AgriculturalDemand

IndustrialDemand

DomesticDemand

Water SupplyWater

Consumption

ShortageSurface Water

DemandManagement

Pay for DemandManagement

Pay for Supplymanagement(IBWT)

+

++

+

+

+

- +

+

++

+-

+

6�'Y�H��"� ?,� >1L+� � %�LY ��0

�B��A��,�D� �� ,�D� ��* ��0' M�U �� D� �* M� &� A } D� ��0' M�U>6�+� >� �� .A�� 0' ��,�D�

��9��" �* ��/G��0' (� ' !��* �">� �GN� �� ,� 0H.

L�7�Z��K� :5�, �� 2�� i�CV�\

�* ~*�� * �� %��,� �� } D� � �� 0' (� ' !��* >� ,� *.%��,� �� } D� #��$ !� �"* !��* � �* C /�7� A

,�� .�/�� (� ' � �� A? D�H� %�$� ��6�� E ��4H .��%��,��>*� �� G� �� -�"* !��* 5�"* A�� ) �,�$ �� G�

1 Pay for Shortage Reduction

>�-�� 9G� �(�� ? �D�H� ��-�9� %�7��) ��-b0� ��}Z >� ��E >* �� B�� ! � ��.

k $��* �&1V� �� "H� s*�� A�� >1�L+� � %��LY ��0H 2=�v%$� 5,� 5�� NH .

L�D�*��.% *�@%�� 2 �� 9� ��0H5� �H��2=� 2�,�� E�� v��* 0��$ @�'�� >��5� �H� �^A ��T�� H ! "H� ��* s*�� >�� *�,.0H��H� ��5�

��"� ?,�� 0H �� j��F� ! ��T�� 0� 2� �� ' %�LY�� %$� >1L+� K�H s�3� ��9�6� #��$ �� e2=�� a#�$�

2 Stocks 3 Vensim

9��

��<i

8�'

��

�� '

=>�

*�

��

21

,�5$�%.��96� K�H ,-H � >� � #�$ �� !� $ >� ��) �* >-�� H %�$ ��Z 2��L3� � 5�� K ��XH� �� #��$ M��U ��* ��

! "��L* E 5��0� �* !��/� ��L�G� >H ��N�) #�0/�� A!�� _ �>� ,-�� ]i^.[

L�L�&\��\j��C� �^9�� >?,� #"� 2Z�� $A!X-�$�� >,/�� ?,�� R%�$�.��

X-$�� LZ��> �� ) !2� � ?,� :� �� )!�T� �$ 5,�--Q �� * �� * #�� H �� >A

H ��> "H� ��,D� �A2� �� ,�*�>�� !�4-� �� G� �� 5,�� #�� A �,$!� �� G� �* ��-> "*� �!�N��* >�� 2�U Z

�"� .� /�!�� NQ A!�+-U �%$� >.� �� )!LG� �$ 5,�--Q �� * �� * #�� H �� >A

H ��>�"� .� /� 2� � "H� ��,D� �!�� NQ A!�+-U �>%$� .�U/7�� M �1��,��>$�� "� %�� G*� 2� � #��

* ~ �� 3F$ �� >� �� ->%$� .��$!H �� >�"� �� ,--Q .�/� !��"� .

� �* � � *��Q ��,Z]p+0 ,U�� (��) %3� ��"� %�"�� !,-�� A�9��6� �H (��"�� ! ��* @��$ -��

�96��+0 (�%$� 5,� ��6�� 4H �� %.��*!�� * >$ ��L0Y R* F� �#��A�$!H �� >AG�� ,H�� >

�96��+0 (��%)Q��N��"�� !(� �� zF�$ M H �$H �7��"� %�� G*� �� 5�*� "1 �$ �!\eao �� \epi �*

� D�� $ �! D� 5,� �� * ?,� � ��1 Q k $� ��%3�U A5��X-$>�� * >%$� ��6�� E .! "L=� p�]�$!H �� >�96��+0 �H� $ (�� %! "L=� e�\f7� � zF�$ M H $H ��5�

�$ �� "� %�� G*� �� !H �� >� �� G>�� $ �!� � NH �� 5,�>,��.

��* %$� �Q� � !7� R* �F� �� G*� 5��->�� D��$ ��!H �� >�� ,Z�� .��,��->)� 5��,�H� ��!

5,�� (7� M H ��$H �� G*� 5��->M ��$ 3� �� $!��* ��Q %�$� 5,�� 5� &��$� 5,�� !,�� 7� 2�� 5�

��->F��$ M H ��$H ��* �� z,�� * ��}�7� @�� 5��->��"� %�� )��*��*v,�U�� (��%Z �� Q ��G*�

�*��*i]vQ�� *�� L>�0H 5� &�$� ,� * .?,�� As��*�� ) R�E,�� z�3/�� )>X-��$��

>� ��.?,� �� %�+��: �� >�+E�� #��$ �BN�� 0H ��-Y �* 1 Calibration 2 Verification

%$� 5,� ��6�� 4H .��2=� \\!��* >LU� ! ��T�� 6� 53H 5��\f�1 $ )5��>X-$�� (�� $ �!��* �"H� !� �$ �� P

M,� �� 5�� ? $\iff)�+1 F� �� 5��(�� _5,�� %�$� .�� 4H �� !�� -$ >L+6 � �� %�+}� �� A!� $

��+0 M��T� A>1 � �* -� � >*� �* -� %" �� ! ��9*� 9��H � %>� >��,� ,� * .� 0� >�� 4ZJ� ��' ��: �� 0' ��

%6 � ,��7 (��96� M,� �* >�� ! "1 $ .�� * �-� ��* >�-��* ,��7 >&-� �� J�* � ��6 � (� ' M,�.

Y��@' k��% ��&�� lJ�V� �� A?,� >X-$�� ,+* �� >��,� %$ �$ �$ #��$ >� ��) ?,

�� "� !�"� �� !� $�,.H � >��,�� %$ �$ �$ �� ?,� �� "H� ? 0Y�M� �Y �*9� �� ,H :

Y��m^�?.2 �)@' ��2� =hX�4 ��!C� � �*�> �� yJ�:� K,�Y !�"� �� ,� ! "�H��BH � #"� M��V$ �� >=�

�0 �=�� !�� >�� M��W� ��&/� � !�� %$� �J} 6 .�� .� /�� !��* ��&/� �� ) >�+-U R: -� � ?� -� �J} 6 Aj�:

%6� ,��7 � ' �* !�� N' � � 9�$ ! S6.��0 �=�� "� �"� �� J�} 6 ��&/�� !�� >S�+*

5�"* ? Z �� "�0�E �� B�� ! � �� !��* %�$�� ? Z .��>=�� -�� ?,�� A��* �� -��$ �� =�� !�� W� >��$��* !

�* DZ �� !��* 2U Z �� 5� &�$� � �J} 6 !�� N' ! � %�$� 5,�� 6�� 4H �� "� %�� . ��6 ?�� !�� -�$ ��

�N�H �� "� �� J} 6 �=�� ' 5,�.�� A%�1 Z �� %�$� �� ! �"� O R��: �� J} 6 5,0Y.!�� -�$ �� K��

� �' 5,� �6 ? $ �\epf � \iff � 5,�� LZ�� * �=�� &U �� >F7 M�U �*\ff �� ?: �� ,U�� ^fR�D3� ? $

,* � .! "L=�� \^�\e�� -�$ �� M��W� �� * !� �$ ?,� s$� >� 5,�� .2=� ��\^2U Z �X��H ��>��' �

�� >� H >�N��* �� #"$ !�"� �J} 6)! "� O >*� (%��0�� "� >�-�� 5�&�$ ?� �+� �� !� �� .��B�� .��: ��

>� @ � ��"� �J} 6 �=�� #��$ ��,Z� .�: ;� �� * !�"� �J} 6 ��&/� ! �,Z�� >-�� 5�&$ ��T� !

�B�� .�: �� ,* � (� ' >-�� 5�&$ ��T� � 5,� �J} 6��* !�� N' � �H ��"� �J} 6 �� >-�� 5�&$ �� %��* !

5,�A��LG� ��0' >-�� 5�&$ < 31 ��,* � �� . �* !�"�� .�/� �W� �* �} Z ? Z �� ' >*� ��9�� =-�� * � �

��"* �� N��* ,�� 0H >�� &H >�-�� 5�&$ �*5�� !��*��-�� >�/� s$�N' .� ��!�� Z� �� ) A%$��, �

��

22

Water

balance

GroundW

ater

naturalrecharge

naturaldischarge

sweragesystemcon.

returnwatercoeff.returnwater

karaj

latian

lar

surfaceW.

ID

AD

DD

Population

shortage

interbasinwatertransfered

payforsupplymanag.payfordemandmanag.

ag.perculation

indust.perculation

dom.perculation

rainfallriverbed

snowmeltinf.

irrig.return

aquiferrech.hydrulicgradient

f1

wasteW.perculation

<dom.perculation><indust.perculation>

lifeexpectancyshortagepercap.

<Time>

<f1><Time>

<Time>surfacewatersupply

irrig.area

birthdeath

birthrate

averagedem./unitindust.

numberofindust.

payforreduction

N.recharge

Returnedwater

N.discharge

GWextraction

migration

dem./capita

watertools

initialdem.capitainitialpaypayfunction

transferedwaterprice

psmc

psmc:payforsurfacemanagenetcoefficient

<shortage>effectofs. migraterate

effectofs.onlife

wtf

totalneccessarybudgetfordm

<Time>

initialwaterdemand

waterdemand

<ag.perculation>

collectedww

<collectedww>deatrate

safeyieldf2

<Time>

6)'Z� �) ?,� � �� 0H ��"� !�"� �� #��$ >

��

23

6.26.46.66.87.07.27.47.67.88.0

1375 1376 1377 1378 1379 1380 1381 1382 1383 1384

,)ل

��;ن-

!�<=<.

6#�<

>?@

6)'[�%�+0 >G�� >H �� !�$ )!�"� �� ,--Q .�/� (?,� >X-$�� 5�� "�

6.26.46.66.87.07.27.47.67.88.0

1375 1376 1377 1378 1379 1380 1381 1382 1383 1384

ز.)ن

��;ن-

!�<=<.

6#�<

>?@

6)'n��$!H �� >� $ �� D� !%�+0 5,� )�"� �� ,--Q .�/�!(5�� "�X-$��>?,�

2500

2600

2700

2800

2900

3000

3100

1375 1376 1377 1378 1379 1380 1381 1382 1383 1384

B�>C

.�5.

!ن<=<

.6#D

�<Eذ

GHI

6�'�`�?,� >X-$�� 5�� "� ��G*� �� 5��7� #XZ !� $ �� D� >H �� !�$

�!%�

��J��

��

�1.2

�� ' *� �1.2 �'*) �� 5&V�*�� (

�� 1.2 &%�� )��@' �' ��(

�!%�

��J��

��

�1.2

9��

9��

��V�> ��8o 3\A &%�� )��@' �' ��(

W1)

��

��J�

��

8o3\

A

9��

��

24

4,000

3,200

2,400

1,600

800

0

-800

-1,600

-2,400

-3,200

-4,000

1370 1372 1374 1376 1378 1380 1382 1384 1386 1388 1390 1392 1394 1396 1398 1400

Time (year)

Ground Water

Million CubicMeter Shortage

Surface Water

Water Balance

6)'�� D� M�3�5�� ! �!,�LQ ?,� k $��*�� !� $M,�� 5�� P�

�"*5�J} 6 �=�� !��*A�� 5�&�$ ��T� (� �' >�-�� 5��7� � �� zF�$ >X��,�� %6� * >-�� 5�&$ � %6 � ,��7

�� ,� ,��7 � ��.!�"�� J�} 6 �=�� !�� M�U ��A��? $\epf ��*�� 7 5��7� >H��3* (� ' * >-�� 5�&$

,� ,��7 .2=� �* � � * >1�\e>�� NH ?,� ��' ,�� !�� J} 6 j�: * �* � >� ��/G� �� N�Q �� !��

�* �J} 6 5,� ��&/�!��* 5�"* !��G*� �� >�0"� K �� * ,��7 ��"� �� 0' (-� (� '�� ? �$ ��\iff

��l ��0' � O� 2* E 1�E>�J} 6 j�: !�� * >1� ,� #��7 ��0' ! � �*epf ��+=� �� L�� >As�D6^pf ��L��

@+=� %�� #��7 ��0' ? $ ��.

Y�/�� 5��*�� 9�.c� ^9�� *� E�� 2=� R* F�iA? �$ �� "� �"�� \epf �� 3* ��DF-� ��

� ��* . =� �� * �� 5,��,�� ,��7 ��N�* } D� � �.�� >TL�� H� $ !��* . =�� 4H �� 5,�� 6��*,�� A

>� �� -�� * �� } D� %��,� ! �� ' ��* ��* .%G��$ ! ��9*� �� >��=� �� %��,�� !��9��6��? ��D�H� A��* �}Z %$� �� !� .�� "� ��* ? �D�H� !��* � � >*� �* -�

(G* i,� 5�� z�}� .�� * ? D�H� �-�9� �' �6 @�+=�� A?,� !�� ? $ �� \fff �� ? ,� *A�' >��U �� %��,��

�H� �$ !�"�� &��U ��*��* >T1 �� -��$ ��$ �� Aof�\ff ,-' .�U ,�, �* -� �� "� �* �� ? D�H� !��* ? �� L�� A�W�

6)'�/�>-�� #XZ �* �J} 6 �=�� !�� W��

Ground Water4,000

3,000

2,000

1,000

01371 1378.3 1385.5 1392.8 1400

��)�9�(

=hX�4 3��

=hX�4 3�� &��

��=

> ��

8o6,3

\A)

W1)

��

��J�

�(

��@.,

�� =>&��

=> �h��

��)9��(

��

&Ke� �� >

MCM

25

Grounwater deficit400

300

200

100

01371 1378 1385 1393 1400

Time (year)

with sewerage system

Million Cubic meter/year

without sewerage system

6)'�7��W��' �* �J} 6 j�: !�� (� �� >-��

�� >�� ! "1 $ �� 0' (� ' �*\iff 2=� ��\i5,��%$�.2=� �* � � * \i.�U �' #�* � >� �� * ? $>�,H�� 0' �� >" �� 2�* E ��,�D� ��* ,�-' !��L .��*

? �$ �� ? �{� ��-Y \iff A��0' �� ^^f ��* \^f �� L�� @+=� >� (� ' ,* �.�� * .��U �* (� �' �� *��* !�\ff

? $ �� ? �� L��) � -�� ? $ ��\iff (?� �+� ��-Y ��*� $�H�-�9� !��* ��6 � 2�9-� �� $ ! � 5��"* � !�� !��*%$�.

Y�7��X�� 9�.c� D� %��,��6 2� �� } �,��-��9*� �>�� >��&L�G� ! �� ,�� * .��

�H� �$ � �* �' >��U �� -�$ ��$ �� !� ��,�D� ��* A�&�U of�\ff 5D1 * M�U �* ? �� L�� ! ��9*� @/�H � ,��7 !��*

.�/� 5,-� ' ?� -� �� ,� * k��$� ��A?,� !�� W� 2=� �� H� $ ��0' (� '\o� NH >� ,�� .�� * �� *

� $ ?� +� ��-Y�H�-�9� !��* ��6 � 2�9-� �� 9*� @/�H ! ��5�"* !��* ? �$ �� ) �� -�� ? �$ ��\iff (%�$�.! ��9*�

�-�9� � 5,� � G�H� �� "H� 2�,�� 53H � �:*�� ! �� 5,��%$� ]ie�ii.[

2=�\o>� � NH ,�� "�� W� �' %�1 Z ��"* �� ? $\iff �"-� ^f@�+=� �� L�� ? �$ �� %�$� .��* �-*

� �* .�U 5��H >6 ' w�� !�� ,�-�� H ��0' �� * ? D�H� �}Z !�9�H>�,� *.

Shortage 400

300

200

100

01371 1378 1385 1393 1400

Time (year)

0 Billion Rial for supply

Million cubic meter per year

100

50

6)'�D��W��}Z ��* ? D�H� !�� 0' (� ' !�� )� -$ �$ ��>1 � �(

&�� => ��@.,

��=hX�4 3��

=hX�4 3��

��)9��(

��8o

MCM/Year

��)9��(

��

MCM/Year

26

Shortage400

300

200

100

01371 1378 1385 1393 1400

100

10

M illion Cubic meter/Year

0 bilion Rial for demand management

6)'�L� } D� %��,� �� * .�U M�U �� H� $ ��0' ��T�)?� -� �� .�/� 5,-� ' ! ��9*� @/H(

Z�� \��% %�$��*�� 5,0Y (1 O �� * ��"� !�"� �� 5,-�� .(1 �O

?��A%�+0 (��96� %$� (��9�6� @� � ��' ! �} D� �� 5,��%$�.K�� (1 OAA�J�} 6 �=�� !�� !��* >1 � �* -� ��

�}Z ��* ? D�H� >�� } D� %��,� � !� ,�� * .M��W� ?,�� T��%�+0 �� 2��Y �� $ ��*�� #XZ �� >�-�� 5�&�$ ��"�

�� _>� �,-' �� (1 �O �� ' � �W�� ! �� =�� AK�� >1 � �* -� ��/G� >�� NH ,�� .!�� H ?,�� >� ��)

��"� !�"�� #��$>�� N��H ��' ,�� j��: !�� 0 !�� &/�� J��} 6A�* ��-� �� !� �� ,��D� ��*

�� !��* k��$� 2* E >-��%�$ ' ,��7 !�"�� .>LY �} D� %��,� A.�/� 5,-� ' ! ��9*� @/H %�{� ��W�� #l� >�0H �H�� } D� ��* � �� . =�� >� �"-� ��* ,��,��-'�) �� .

��* -* ��* ? �D�H� ��}Z �� !� �"�� ! �} D� �� !��* %$� !��} ��"�.

5� &�$� * ��?,� �) ! �AM��W� ��* ��1�� w�BH ! "0�0/�� !�"�� %��,� ��6 � ��"*�� ) M��W� (-'�,�H� ! ��

5g��) �� L�G� ��>+E ��>�� .�� 5� &��$� >� ��) #��$ �� >$��* � =�� 5g��) M��W� !� $ �� -$ � � ��L�G� ! � ��

#�0/�� !��H �* * � %1"$ �*>!��/�>� � NH ,��.� � NH R�D3� �� H> � �Q ,�� *�� >�� /�G�

�� NQ! S6 �!�* �J�} 6 5,�� &/� �� 9�$ � � !��} "� O!��U �� 5�* > � �� Q �*�� >�N�H K �XH�

��,�� ) H � ��G*� 5��7� (� Q * #��$!,�� ,��7 �� . �� *�� >��/G� A5��"* �4ZJ� 2* E (� Q @ � ��*!

-�� >��N��* P0Q � 5,� !�-�� 5�&�$ ?� �+� ��* >��Q ,��7.

LQ �X��H>R��D3� �� * ��Q %�$� %�D�DZ �� 2��1� � %�+0 (��96�(��96� �L+6 ,H�� A.�/� �H��$ >�� %��,��

�"�!R�0Y . �� @ � ��"� �� } D� ��* ��,��7 �� ,� �� * �� 2�1�;� �� !��,� >� �"-� ��* >�� E

� �� 2Z �*�0H ��"� �� >,-� *A��* ��L* !��* ?/�Z P�� ?��E 2�* E 2Z 5�� ,�� * ��Y0X� �!��,�� M ��,�E� �� >? �0Y�

,H��.�� ! �� +� �,��+� ��* �� * ��' %��$� ��'� ��* K��V�� W

C/7 �* !�"� �� %��,� �� J' < �31 A ��"�� ' �� +1 F� ;� �� A� "-N��) � ' �� !��* � 5�* K��

>� ��:� �� $ ? 0Y� �� %��,�� } D� %��,�� ! "�� ?,��

"H� �W� >$��*�5�"* �� H�* ��' �� !��* ��T�� -Y ��* >3F�$ �� G�

#�0/��>��+0 A>1 � ! "��,3� ��' ��>-6 ?,� ��

��' ��5�� >6� /� M �U/7 >=�g1��,�� ! �?,� �� ) R�E,� ,-H � >F�3� ! � � 5�&$ ��T� @��}...�

R�E,�� "� �J} 6 5g��) !��* 5�"* � �� !,-*�%'� N�!�� +&H R�E,�� ?,�� %7 �$ �� ,�� C/�7 ��* �� s*��.

[��)$� � �� N� >$,-"� %'�� k,E � "� *�� : 7_K�� M �YJ:� �

* �=N� � ��,D� �>� 20Y ,��.

��8o

MCM/Year

��)9��(

��

27

n�?2�� 1- Shiklomanov, I.A. (2000). “Appraisal and assessment of world water resources.” J. Water International,25(1), 11- 32. 2- Gleick, P. H. (2000). “The changing water paradigm a look at twenty-first century water resources development international.” J. Water International, 25(1), 127-138. 3- WWF. (2003). World water forum, 3rd Ed., Final Report, Kyoto, Japan, 16-23. 4- Gleick, P.H., ed. (1993). Water in crisis, Oxford University Press, New York. 5- L’vovich, M. (1979). World water resources and their future, English translation, by R.L., Nace, American Geophysical Union (AGU), Chelsea, Michigan. 6- Forrester, J.W. (1973). World dynamics, 2nd Ed., Wright Allen Press, Cambridge, Massachusetts. 7- Meadows, D.H., Meadows, D.L. Randers, J., and Behrens III, W.W. (1972). Limits to growth, Universe Books Publishers. 8- Meadows, D.H., et al. (1992). Beyond the limits, McCelelland and Stewart Inc., Toronto, Canada. 9- Forrester, J.W. (1999). Urban dynamics, 2nd Ed., Pegasus Communication Inc., Waltham. 10- Rotmans, I., and Devries, B. (1997). Perspectives on global change, Cambridge University Press, Cambridge, UK. 11-Simonovic, S.P.(2001). “World Water: A tool for global modeling of water resources.” J. Canadian Civil Engineer, 18(3), 6-12. 12- Simonovic, S.P.(2003). “CanadaWater: A tool for modeling Canadian water resources.” Presentation at the Canadian Commission for UNESCO (CCU) Annual General Meeting, March 1-3, Ottawa. 13- Simonovic, S. P., Fahmy, H., and Elshorbagy, A. (1997). “The use of object oriented modeling for water resources planning in Egypt. ” J. Water Resources Management, 11, 243-261. 14- Simonovic, S. P., and Ahmad, S. (2000). “System dynamics modeling of reservoir operation for flood management.” J. Computing in Civil Engineering, 14( 3), 190-198. 15- Guo, H.C., Liu, L., Huang, G.H., Fuller, G.A., Zou, R., and Yin, Y.Y. (2001). “A system dynamics approach for regional environmental planning and management: A study for the lake Erahi Basin.” J. Environmental Management, 61, 93-111. 16- Stave, K.A. (2003). “A system dynamics model to facilitate public understanding of water management options in Las Vegas, Nevada.” J. Environmental Management, 67, 303-313. 17- Ruth, M., and Pieper, F. (1994). “Modeling spatial dynamics of sea level rise in a coastal area.” System Dynamics Review ,10 (4), 375-389. 18- Cassell, E.A., Clausen, J.C. (1993). “Dynamic simulation modeling for evaluating water quality response to agricultural BMP implementation.” J. Water Science and Technology, 28, 635-648. 19- Sudhir, V., Srivivasan, G., Muraleedharan, V.R. (1997). “Planning for sustainable solid water management in urban India.” System Dynamics Review, 13(3), 223-246. 20- Mashayekhi, A.N. (1993). “Transition in the New York state solid waste system: A dynamic analysis.” System Dynamic Review, 9 (1), 23-47. 21- Ford, A. (1999). Modeling the environment, an introduction to system dynamics modeling of environmental systems, Island Press, Washington, D.C. 22- Wolfenden, J.A.J. (1999). “A transdiciplinary approached to integrated resources management: a pragmatic application of ecological economics.” PhD dissertation, Center for Water Policy Research, University of New England, Australia. 23- Huerta, J.M., Serra, M., Sandoval, R. (2001). ProEstado-MAUA, A system dynamics approach for the design of sustaianble water use strategy in the Middle Lerma-Chapala Basin. In the lerma –Chapala watershed, evaluation and management, 201. Edited by A. M. Hansen and M. V. Afferden. Dordrecht, the Netherlands: Kluwer Academic/ Plenum Publishers. 24- Ho, C. C., (2005). “The application of system dynamics modeling to study impact of water resources planning and management in Taiwan.” Proc., 23rd International Conference of the System Dynamics Society,July 17-21, Boston. 25- Ewers, M. (2005). “Combining hydrology and economics in a system dynamics approach: modeling water resources for the San Juan Basin.” Proc., 23rd International Conference of the System Dynamics Society, July 17-21, Boston. 26- Sahlke, G., and Jacobson, J. (2005). “System dynamics modeling of transboundary system: the Bear River basin model.” J. Ground Water, 43(5), 722-730.

�� ....��....))))��.(.(.(.( ”�� !� �!� �!� �! �"#$%�"#$%�"#$%�"#$% &'��&'��&'��&'�� ()()()() *+*+*+*+....“��....�� ,,,,�"#$%�"#$%�"#$%�"#$%��----�.#�.#�.#�.# /0�1/0�1/0�1/0�1 23,4523,4523,4523,45 !�!�!�!� �� !� �!� �!� �! ,,,,�"#$%�"#$%�"#$%�"#$% ��))))6666.(.(.(.( �7�7�7�7��8 �/9��: 8 �/9��: 8 �/9��: 8 �/9��: ....� �� (;��(;��(;��(;�� /</</</<��....�� /;�� % ,� �/;�� % ,� �/;�� % ,� �/;�� % ,) .) .) .) .��7��7��7��7� .( .( .( .(”�� #��#��#��# �� !��!��!��!�� 8 =�8 =�8 =�8 =� �� !$>��!$>��!$>��!$>�� ?��?��?��? *@�#*@�#*@�#*@�# �� A�#��A�#��A�#��A�#� �� B,!B,!B,!B,!

C�� D�EF%C�� D�EF%C�� D�EF%C�� D�EF% (�.�#(�.�#(�.�#(�.�#....“8��G1 /#�� /E� ��H�? I�0,�8��G1 /#�� /E� ��H�? I�0,�8��G1 /#�� /E� ��H�? I�0,�8��G1 /#�� /E� ��H�? I�0,� �J��K /�"�: ��H;�� J��K /�"�: ��H;�� J��K /�"�: ��H;�� J��K /�"�: ��H;�� L;�M��!� L;�M��!� L;�M��!� L;�M��!� ....�N�N�N�N��/0@O��/0@O��/0@O��/0@O....!!!!....��,,,,�!�;P��!�;P��!�;P��!�;P� QQQQ....))))��7��7��7��7�.(.(.(.( ”��MK��MK��MK��MK ��#��#��#��# /��$5/��$5/��$5/��$5 (�.�#(�.�#(�.�#(�.�# 0$%0$%0$%0$%�� R��R��R��R�� 8�=�8�=�8�=�8�=� /��9��/��9��/��9��/��9��....“I�0,�I�0,�I�0,�I�0,� S��A�)S��A�)S��A�)S��A�) ��T�#��T�#��T�#��T�# L��L��L��L�� U��U��U��U�� *+*+*+*+

8��8��8��8��V;��V;��V;��V;�� /�P/�P/�P/�P ��H;��H;��H;��H;�� 8��%8��%8��%8��% ��W�W�W�W�� 8��+8��+8��+8��+....

��

28

30- Yeh, W.W.G. (1985). “Reservoir management and operations models: A state-of-the-art review.” J. Water Resources Research, 21(12), 1797-1818. 31-Jalali, M., Afshar, A., and Mokhtare, A. (2005), “System dynamics modeling approach for gated and ungated flood routing in a cascade multi-reservoir system.” International Journal of Civil Engineering, 2(4), 213-222. 32-Sterman, J. (2000). Business dynamics: systems thinking for a complex world, Irwin/McGraw-Hill.

��8��% *@X�P , *+ L?�K 8��% *@X�P , *+ L?�K 8��% *@X�P , *+ L?�K 8��% *@X�P , *+ L?�K ))))��7Y��7Y��7Y��7Y.(.(.(.( B!� Z B!� Z B!� Z B!� ZDEG0� I�� [��,! , /�$G1 [��,!DEG0� I�� [��,! , /�$G1 [��,!DEG0� I�� [��,! , /�$G1 [��,!DEG0� I�� [��,! , /�$G1 [��,!8��% �8��% �8��% �8��% �....�6�6�6�6��\9 *�� !,�;� /#�� L?�K \9 *�� !,�;� /#�� L?�K \9 *�� !,�;� /#�� L?�K \9 *�� !,�;� /#�� L?�K ))))��76��76��76��76.(.(.(.( �� ]�"0�^�� ]�"0�^�� ]�"0�^�� ]�"0�^� �� *+ U�� /Z�$0+ , /A�?�/G? �!��*+ U�� /Z�$0+ , /A�?�/G? �!��*+ U�� /Z�$0+ , /A�?�/G? �!��*+ U�� /Z�$0+ , /A�?�/G? �!�� 8��% ��K� /��8��% ��K� /��8��% ��K� /��8��% ��K� /��

!��K!��K!��K!��K? �? �? �? ��P!��P!��P!��P! ::::�`^�� *+ L?�K /;3,45 L�,�"��`^�� *+ L?�K /;3,45 L�,�"��`^�� *+ L?�K /;3,45 L�,�"��`^�� *+ L?�K /;3,45 L�,�"� 8��% ��8��% ��8��% ��8��% ��....�a�a�a�a��L?�K L?�K L?�K L?�K *��O !,�;� I�#�� *��O !,�;� I�#�� *��O !,�;� I�#�� *��O !,�;� I�#�� ))))��7Y��7Y��7Y��7Y.(.(.(.( �,� EO �8��% *$�O *+ U�� "#$% , /3��# U��O b�' ]�"0�^��,� EO �8��% *$�O *+ U�� "#$% , /3��# U��O b�' ]�"0�^��,� EO �8��% *$�O *+ U�� "#$% , /3��# U��O b�' ]�"0�^��,� EO �8��% *$�O *+ U�� "#$% , /3��# U��O b�' ]�"0�^� ::::U�� ]�"0�^� U�� ]�"0�^� U�� ]�"0�^� U�� ]�"0�^�

/�� +/�� +/�� +/�� + ��`^�� *+ L?�K 23,45 , ]�"0�^� L�,�"��`^�� *+ L?�K 23,45 , ]�"0�^� L�,�"��`^�� *+ L?�K 23,45 , ]�"0�^� L�,�"��`^�� *+ L?�K 23,45 , ]�"0�^� L�,�"� 8��% ��8��% ��8��% ��8��% ��....�W�W�W�W��Q ��$E1 Q ��$E1 Q ��$E1 Q ��$E1 ....��....))))��.(.(.(.( ”/�$O �P�: ��K,! ��G1� �, 0 , 8��% *+ c�d� 2�� P� �,!/�$O �P�: ��K,! ��G1� �, 0 , 8��% *+ c�d� 2�� P� �,!/�$O �P�: ��K,! ��G1� �, 0 , 8��% *+ c�d� 2�� P� �,!/�$O �P�: ��K,! ��G1� �, 0 , 8��% *+ c�d� 2�� P� �,!....“�A�?�A�?�A�?�A�? c!�de� !� /�$O �P�: S�� c!�de� !� /�$O �P�: S�� c!�de� !� /�$O �P�: S�� c!�de� !� /�$O �P�: S��

L"�: , *�K ��!,�;?L"�: , *�K ��!,�;?L"�: , *�K ��!,�;?L"�: , *�K ��!,�;?��8��% �,�� ]!�, 8��% �,�� ]!�, 8��% �,�� ]!�, 8��% �,�� ]!�, ��....��(�#!(�#!(�#!(�#! � �/EA# ��+� �/EA# ��+� �/EA# ��+� �/EA# ��+) .) .) .) .��N��N��N��N.(.(.(.(”8��% ��K !� 8��.� , 8��.��% �$dP !� *+ c�d� �0��"� �!,+��8��% ��K !� 8��.� , 8��.��% �$dP !� *+ c�d� �0��"� �!,+��8��% ��K !� 8��.� , 8��.��% �$dP !� *+ c�d� �0��"� �!,+��8��% ��K !� 8��.� , 8��.��% �$dP !� *+ c�d� �0��"� �!,+��....“��....�O�$� , ��O�$� , ��O�$� , ��O�$� , �� aaaaaaaa��YW�YW�YW�YW....�7�7�7�7�� /f0�� /f0�� /f0�� /f0�� ....))))��.(.(.(.( ”�� ]@f;� , 8��% *+ /;? �0$0 �fMK g�h�� ]@f;� , 8��% *+ /;? �0$0 �fMK g�h�� ]@f;� , 8��% *+ /;? �0$0 �fMK g�h�� ]@f;� , 8��% *+ /;? �0$0 �fMK g�h�8+ � /K8+ � /K8+ � /K8+ � /K....“!� *@eX�P , *+ Di�.e� /#!�� !��G# I�0,� !� *@eX�P , *+ Di�.e� /#!�� !��G# I�0,� !� *@eX�P , *+ Di�.e� /#!�� !��G# I�0,� !� *@eX�P , *+ Di�.e� /#!�� !��G# I�0,�

j! � ��3��Kj! � ��3��Kj! � ��3��Kj! � ��3��K ��....�N�N�N�N��8��% 8��#� *@X�P , *+ L?�K /�$G1 [��,! 8��% 8��#� *@X�P , *+ L?�K /�$G1 [��,! 8��% 8��#� *@X�P , *+ L?�K /�$G1 [��,! 8��% 8��#� *@X�P , *+ L?�K /�$G1 [��,! ))))��a��a��a��a.(.(.(.(8��% 8��#� *@X�P , *+ ��G�# 8��% 8��#� *@X�P , *+ ��G�# 8��% 8��#� *@X�P , *+ ��G�# 8��% 8��#� *@X�P , *+ ��G�# ....6Y6Y6Y6Y��/;�� % /;�� % /;�� % /;�� % ��....��/< (;�� ,�/< (;�� ,�/< (;�� ,�/< (;�� ,��) .) .) .) .��7��7��7��7�((((....”!$;? !� *+ U�� X�`% L��!$;? !� *+ U�� X�`% L��!$;? !� *+ U�� X�`% L��!$;? !� *+ U�� X�`% L��....“� ��H;�5 ��K,! S��A�? � ��H;�5 ��K,! S��A�? � ��H;�5 ��K,! S��A�? � ��H;�5 ��K,! S��A�? /E� U�� c@%�/E� U�� c@%�/E� U�� c@%�/E� U�� c@%� ��

�8�� $E1 8��.H�3�P �8�� $E1 8��.H�3�P �8�� $E1 8��.H�3�P �8�� $E1 8��.H�3�P�N�N�N�N��k ��k ��k ��k ....6�6�6�6��Q ��9�� Q ��9�� Q ��9�� Q ��9�� ....��(;�� (;�� (;�� (;�� /</</</< ��....�� /;�� % ,� �/;�� % ,� �/;�� % ,� �/;�� % ,) .) .) .) .��7��7��7��7�((((....”8@?8@?8@?8@? ��K��K��K��K 8��%8��%8��%8��% �� >��>��>��>�� !��5�!��5�!��5�!��5 *+*+*+*+ ��K��K��K��K....“/e#�� /eE� ��eH�? I�e0,� /e#�� /eE� ��eH�? I�e0,� /e#�� /eE� ��eH�? I�e0,� /e#�� /eE� ��eH�? I�e0,�

J��K /�"�: ��H;�� 8��G1J��K /�"�: ��H;�� 8��G1J��K /�"�: ��H;�� 8��G1J��K /�"�: ��H;�� 8��G1 ��L;�M��!� L;�M��!� L;�M��!� L;�M��!� ....42- Vensim PLE software version 3.0. (1998). Ventana Systems, Inc., Massachusetts.

6�6�6�6�� /��l�X � �/��l�X � �/��l�X � �/��l�X ....))))��7Y��7Y��7Y��7Y .( .( .( .(”(�Gd% � ��A�#�(�Gd% � ��A�#�(�Gd% � ��A�#�(�Gd% � ��A�#� *+ ��X�`% , I��m% L�� !� �!��"� �< ��Z*+ ��X�`% , I��m% L�� !� �!��"� �< ��Z*+ ��X�`% , I��m% L�� !� �!��"� �< ��Z*+ ��X�`% , I��m% L�� !� �!��"� �< ��Z....“8��58��58��58��5 K!� /#��K!�? ��K!� /#��K!�? ��K!� /#��K!�? ��K!� /#��K!�? �� ----�.#�.#�.#�.# �� !� 23,45 /0�1�� !� 23,45 /0�1�� !� 23,45 /0�1�� !� 23,45 /0�1 �"#$% , � �!�"#$% , � �!�"#$% , � �!�"#$% , � �!8��% 8��% 8��% 8��% ....

44- Zarghaami, M., Abrishamchi, A., and Ardakanian, R. (2005), “Multi-Criteria decision making for integrated urban water management. ” 7th, IAHS Scientific Assembly at Foz do Iguacu, Brazil, 73-82.

� ��

0 ˇˆ˜ ˘ˇˆ ˙˝ 1 ˇ 2* . & ( ˚ 32* · 2020-06-23 · 2-ph.d student of water...

Documents