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Home My WebLink About2_Storm_Drainage_Plan_pg 56-78_03-07-2018- F S H E E T O F DATE: PROJECT #: DRAWN: CHECKED: THIS DRAWING HAS BEEN PREPARED BASED ON INFORMATION PROVIDED TO ADS UNDER THE DIRECTION OF THE SITE DESIGN ENGINEER OR OTHER PROJECT REPRESENTATIVE. THE SITE DESIGN ENGINEER SHALL REVIEW THIS DRAWING PRIOR TO CONSTRUCTION. IT IS THE ULTIMATE RESPONSIBILITY OF THE SITE DESIGN ENGINEER TO ENSURE THAT THE PRODUCT(S) DEPICTED AND ALL ASSOCIATED DETAILS MEET ALL APPLICABLE LAWS, REGULATIONS, AND PROJECT REQUIREMENTS. 4640 TRUEMAN BLVD HILLIARD, OH 43026 1-800-733-7473 REV DRW CHK DESCRIPTION Tool 5 ---860-529-8188 |888-892-2694 | WWW.STORMTECH.COM Detention Retention Water Quality A C C E P T A B L E F I L L M A T E R I A L S : S T O R M T E C H S C - 3 1 0 C H A M B E R S Y S T E M S P L E A S E N O T E : 1 . T H E L I S T E D A A S H T O D E S I G N A T I O N S A R E F O R G R A D A T I O N S O N L Y . T H E S T O N E M U S T A L S O B E C L E A N , C R U S H E D , A N G U L A R . F O R E X A M P L E , A S P E C I F I C A T I O N F O R # 4 S T O N E W O U L D S T A T E : " C L E A N , C R U S H E D , A N G U L A R N O . 4 ( A A S H T O M 4 3 ) S T O N E " . 2 . S T O R M T E C H C O M P A C T I O N R E Q U I R E M E N T S A R E M E T F O R ' A ' L O C A T I O N M A T E R I A L S W H E N P L A C E D A N D C O M P A C T E D I N 6 " ( 1 5 0 m m ) ( M A X ) L I F T S U S I N G T W O F U L L C O V E R A G E S W I T H A V I B R A T O R Y C O M P A C T O R . 3 . W H E R E I N F I L T R A T I O N S U R F A C E S M A Y B E C O M P R O M I S E D B Y C O M P A C T I O N , F O R S T A N D A R D D E S I G N L O A D C O N D I T I O N S , A F L A T S U R F A C E M A Y B E A C H I E V E D B Y R A K I N G O R D R A G G I N G W I T H O U T C O M P A C T I O N E Q U I P M E N T . F O R S P E C I A L L O A D D E S I G N S , C O N T A C T S T O R M T E C H F O R C O M P A C T I O N R E Q U I R E M E N T S . N O T E S : 1 . S C - 3 1 0 C H A M B E R S S H A L L C O N F O R M T O T H E R E Q U I R E M E N T S O F A S T M F 2 4 1 8 " S T A N D A R D S P E C I F I C A T I O N F O R P O L Y P R O P Y L E N E ( P P ) C O R R U G A T E D W A L L S T O R M W A T E R C O L L E C T I O N C H A M B E R S " , O R A S T M F 2 9 2 2 " S T A N D A R D S P E C I F I C A T I O N F O R P O L Y E T H Y L E N E ( P E ) C O R R U G A T E D W A L L S T O R M W A T E R C O L L E C T I O N C H A M B E R S " . 2 . S C - 3 1 0 C H A M B E R S S H A L L B E D E S I G N E D I N A C C O R D A N C E W I T H A S T M F 2 7 8 7 " S T A N D A R D P R A C T I C E F O R S T R U C T U R A L D E S I G N O F T H E R M O P L A S T I C C O R R U G A T E D W A L L S T O R M W A T E R C O L L E C T I O N C H A M B E R S " . 3 . " A C C E P T A B L E F I L L M A T E R I A L S " T A B L E A B O V E P R O V I D E S M A T E R I A L L O C A T I O N S , D E S C R I P T I O N S , G R A D A T I O N S , A N D C O M P A C T I O N R E Q U I R E M E N T S F O R F O U N D A T I O N , E M B E D M E N T , A N D F I L L M A T E R I A L S . 4 . T H E " S I T E D E S I G N E N G I N E E R " R E F E R S T O T H E E N G I N E E R R E S P O N S I B L E F O R T H E D E S I G N A N D L A Y O U T O F T H E S T O R M T E C H C H A M B E R S F O R T H I S P R O J E C T . 5 . T H E S I T E D E S I G N E N G I N E E R I S R E S P O N S I B L E F O R A S S E S S I N G T H E B E A R I N G R E S I S T A N C E ( A L L O W A B L E B E A R I N G C A P A C I T Y ) O F T H E S U B G R A D E S O I L S A N D T H E D E P T H O F F O U N D A T I O N S T O N E W I T H C O N S I D E R A T I O N F O R T H E R A N G E O F E X P E C T E D S O I L M O I S T U R E C O N D I T I O N S . 6 . P E R I M E T E R S T O N E M U S T B E E X T E N D E D H O R I Z O N T A L L Y T O T H E E X C A V A T I O N W A L L F O R B O T H V E R T I C A L A N D S L O P E D E X C A V A T I O N W A L L S . 7 . O N C E L A Y E R ' C ' I S P L A C E D , A N Y S O I L / M A T E R I A L C A N B E P L A C E D I N L A Y E R ' D ' U P T O T H E F I N I S H E D G R A D E . M O S T P A V E M E N T S U B B A S E S O I L S C A N B E U S E D T O R E P L A C E T H E M A T E R I A L R E Q U I R E M E N T S O F L A Y E R ' C ' O R ' D ' A T T H E S I T E D E S I G N E N G I N E E R ' S D I S C R E T I O N . M A T E R I A L L O C A T I O N D E S C R I P T I O N A A S H T O M A T E R I A L C L A S S I F I C A T I O N S C O M P A C T I O N / D E N S I T Y R E Q U I R E M E N T D F I N A L F I L L : F I L L M A T E R I A L F O R L A Y E R ' D ' S T A R T S F R O M T H E T O P O F T H E ' C ' L A Y E R T O T H E B O T T O M O F F L E X I B L E P A V E M E N T O R U N P A V E D F I N I S H E D G R A D E A B O V E . N O T E T H A T P A V E M E N T S U B B A S E M A Y B E P A R T O F T H E ' D ' L A Y E R A N Y S O I L / R O C K M A T E R I A L S , N A T I V E S O I L S , O R P E R E N G I N E E R ' S P L A N S . C H E C K P L A N S F O R P A V E M E N T S U B G R A D E R E Q U I R E M E N T S . N / A P R E P A R E P E R S I T E D E S I G N E N G I N E E R ' S P L A N S . P A V E D I N S T A L L A T I O N S M A Y H A V E S T R I N G E N T M A T E R I A L A N D P R E P A R A T I O N R E Q U I R E M E N T S . C I N I T I A L F I L L : F I L L M A T E R I A L F O R L A Y E R ' C ' S T A R T S F R O M T H E T O P O F T H E E M B E D M E N T S T O N E ( ' B ' L A Y E R ) T O 1 8 " ( 4 5 0 m m ) A B O V E T H E T O P O F T H E C H A M B E R . N O T E T H A T P A V E M E N T S U B B A S E M A Y B E A P A R T O F T H E ' C ' L A Y E R . G R A N U L A R W E L L - G R A D E D S O I L / A G G R E G A T E M I X T U R E S , < 3 5 % F I N E S O R P R O C E S S E D A G G R E G A T E . M O S T P A V E M E N T S U B B A S E M A T E R I A L S C A N B E U S E D I N L I E U O F T H I S L A Y E R . A A S H T O M 1 4 5 ï A - 1 , A - 2 - 4 , A - 3 O R A A S H T O M 4 3 ï 3 , 3 5 7 , 4 , 4 6 7 , 5 , 5 6 , 5 7 , 6 , 6 7 , 6 8 , 7 , 7 8 , 8 , 8 9 , 9 , 1 0 B E G I N C O M P A C T I O N S A F T E R 1 2 " ( 3 0 0 m m ) O F M A T E R I A L O V E R T H E C H A M B E R S I S R E A C H E D . C O M P A C T A D D I T I O N A L L A Y E R S I N 6 " ( 1 5 0 m m ) M A X L I F T S T O A M I N . 9 5 % P R O C T O R D E N S I T Y F O R W E L L G R A D E D M A T E R I A L A N D 9 5 % R E L A T I V E D E N S I T Y F O R P R O C E S S E D A G G R E G A T E M A T E R I A L S . R O L L E R G R O S S V E H I C L E W E I G H T N O T T O E X C E E D 1 2 , 0 0 0 l b s ( 5 3 k N ) . D Y N A M I C F O R C E N O T T O E X C E E D 2 0 , 0 0 0 l b s ( 8 9 k N ) . B E M B E D M E N T S T O N E : F I L L S U R R O U N D I N G T H E C H A M B E R S F R O M T H E F O U N D A T I O N S T O N E ( ' A ' L A Y E R ) T O T H E ' C ' L A Y E R A B O V E . C L E A N , C R U S H E D , A N G U L A R S T O N E , N O M I N A L S I Z E D I S T R I B U T I O N B E T W E E N 3 / 4 - 2 I N C H ( 2 0 - 5 0 m m ) A A S H T O M 4 3 ï 3 , 3 5 7 , 4 , 4 6 7 , 5 , 5 6 , 5 7 N O C O M P A C T I O N R E Q U I R E D . A F O U N D A T I O N S T O N E : F I L L B E L O W C H A M B E R S F R O M T H E S U B G R A D E U P T O T H E F O O T ( B O T T O M ) O F T H E C H A M B E R . C L E A N , C R U S H E D , A N G U L A R S T O N E , N O M I N A L S I Z E D I S T R I B U T I O N B E T W E E N 3 / 4 - 2 I N C H ( 2 0 - 5 0 m m ) A A S H T O M 4 3 ï 3 , 3 5 7 , 4 , 4 6 7 , 5 , 5 6 , 5 7 P L A T E C O M P A C T O R R O L L T O A C H I E V E A F L A T 6 8 5 ) $ & ( ð ñ 1 8 " ( 4 5 0 m m ) M I N * 8 ' ( 2 . 4 m ) M A X 6 " ( 1 5 0 m m ) M I N E X C A V A T I O N W A L L ( C A N B E S L O P E D O R V E R T I C A L ) 1 2 " ( 3 0 0 m m ) M I N 1 2 " ( 3 0 0 m m ) T Y P 3 4 " ( 8 6 5 m m ) 6 " ( 1 5 0 m m ) M I N A D S G E O S Y N T H E T I C S 6 0 1 T N O N - W O V E N G E O T E X T I L E A L L A R O U N D C L E A N C R U S H E D , A N G U L A R S T O N E I N A & B L A Y E R S 1 6 " ( 4 0 5 m m ) D E P T H O F S T O N E T O B E D E T E R M I N E D B Y D E S I G N E N G I N E E R 6 " ( 1 5 0 m m ) M I N * T O B O T T O M O F F L E X I B L E P A V E M E N T . F O R U N P A V E D I N S T A L L A T I O N S W H E R E R U T T I N G F R O M V E H I C L E S M A Y O C C U R , I N C R E A S E C O V E R T O 2 4 " ( 6 0 0 m m ) . S U B G R A D E S O I L S ( S E E N O T E 5 ) P A V E M E N T L A Y E R ( D E S I G N E D B Y S I T E D E S I G N E N G I N E E R ) S C - 3 1 0 E N D C A P D C B A P E R I M E T E R S T O N E ( S E E N O T E 6 ) 3 5 Icon Home Apartments - Chamber Bozeman, Montana 03/01/2017 SH S H E E T O F DATE: PROJECT #: DRAWN: CHECKED: THIS DRAWING HAS BEEN PREPARED BASED ON INFORMATION PROVIDED TO ADS UNDER THE DIRECTION OF THE SITE DESIGN ENGINEER OR OTHER PROJECT REPRESENTATIVE. THE SITE DESIGN ENGINEER SHALL REVIEW THIS DRAWING PRIOR TO CONSTRUCTION. IT IS THE ULTIMATE RESPONSIBILITY OF THE SITE DESIGN ENGINEER TO ENSURE THAT THE PRODUCT(S) DEPICTED AND ALL ASSOCIATED DETAILS MEET ALL APPLICABLE LAWS, REGULATIONS, AND PROJECT REQUIREMENTS. 4640 TRUEMAN BLVD HILLIARD, OH 43026 1-800-733-7473 REV DRW CHK DESCRIPTION Tool 5 ---860-529-8188 |888-892-2694 | WWW.STORMTECH.COM Detention Retention Water Quality I N S P E C T I O N & M A I N T E N A N C E S T E P 1 ) I N S P E C T I S O L A T O R R O W F O R S E D I M E N T A . I N S P E C T I O N P O R T S ( I F P R E S E N T ) A . 1 . R E M O V E / O P E N L I D O N N Y L O P L A S T I N L I N E D R A I N A . 2 . R E M O V E A N D C L E A N F L E X S T O R M F I L T E R I F I N S T A L L E D A . 3 . U S I N G A F L A S H L I G H T A N D S T A D I A R O D , M E A S U R E D E P T H O F S E D I M E N T A N D R E C O R D O N M A I N T E N A N C E L O G A . 4 . L O W E R A C A M E R A I N T O I S O L A T O R R O W F O R V I S U A L I N S P E C T I O N O F S E D I M E N T L E V E L S ( O P T I O N A L ) A . 5 . I F S E D I M E N T I S A T , O R A B O V E , 3 " ( 8 0 m m ) P R O C E E D T O S T E P 2 . I F N O T , P R O C E E D T O S T E P 3 . B . A L L I S O L A T O R R O W S B . 1 . R E M O V E C O V E R F R O M S T R U C T U R E A T U P S T R E A M E N D O F I S O L A T O R R O W B . 2 . U S I N G A F L A S H L I G H T , I N S P E C T D O W N T H E I S O L A T O R R O W T H R O U G H O U T L E T P I P E i ) M I R R O R S O N P O L E S O R C A M E R A S M A Y B E U S E D T O A V O I D A C O N F I N E D S P A C E E N T R Y i i ) F O L L O W O S H A R E G U L A T I O N S F O R C O N F I N E D S P A C E E N T R Y I F E N T E R I N G M A N H O L E B . 3 . I F S E D I M E N T I S A T , O R A B O V E , 3 " ( 8 0 m m ) P R O C E E D T O S T E P 2 . I F N O T , P R O C E E D T O S T E P 3 . S T E P 2 ) C L E A N O U T I S O L A T O R R O W U S I N G T H E J E T V A C P R O C E S S A . A F I X E D C U L V E R T C L E A N I N G N O Z Z L E W I T H R E A R F A C I N G S P R E A D O F 4 5 " ( 1 . 1 m ) O R M O R E I S P R E F E R R E D B . A P P L Y M U L T I P L E P A S S E S O F J E T V A C U N T I L B A C K F L U S H W A T E R I S C L E A N C . V A C U U M S T R U C T U R E S U M P A S R E Q U I R E D S T E P 3 ) R E P L A C E A L L C O V E R S , G R A T E S , F I L T E R S , A N D L I D S ; R E C O R D O B S E R V A T I O N S A N D A C T I O N S . S T E P 4 ) I N S P E C T A N D C L E A N B A S I N S A N D M A N H O L E S U P S T R E A M O F T H E S T O R M T E C H S Y S T E M . N O T E S 1 . I N S P E C T E V E R Y 6 M O N T H S D U R I N G T H E F I R S T Y E A R O F O P E R A T I O N . A D J U S T T H E I N S P E C T I O N I N T E R V A L B A S E D O N P R E V I O U S O B S E R V A T I O N S O F S E D I M E N T A C C U M U L A T I O N A N D H I G H W A T E R E L E V A T I O N S . 2 . C O N D U C T J E T T I N G A N D V A C T O R I N G A N N U A L L Y O R W H E N I N S P E C T I O N S H O W S T H A T M A I N T E N A N C E I S N E C E S S A R Y . S C - 3 1 0 I S O L A T O R R O W D E T A I L N T S S T O R M T E C H H I G H L Y R E C O M M E N D S F L E X S T O R M P U R E I N S E R T S I N A N Y U P S T R E A M S T R U C T U R E S W I T H O P E N G R A T E S C O V E R E N T I R E I S O L A T O R R O W W I T H A D S G E O S Y N T H E T I C S 6 0 1 T N O N - W O V E N G E O T E X T I L E 5 ' ( 1 . 5 m ) M I N W I D E S C - 3 1 0 C H A M B E R S C - 3 1 0 E N D C A P O P T I O N A L I N S P E C T I O N P O R T S U M P D E P T H T B D B Y S I T E D E S I G N E N G I N E E R ( 2 4 " [ 6 0 0 m m ] M I N R E C O M M E N D E D ) 1 2 " ( 3 0 0 m m ) H D P E A C C E S S P I P E R E Q U I R E D U S E F A C T O R Y P R E - F A B R I C A T E D E N D C A P P A R T # : S C 3 1 0 E P E 1 2 B T W O L A Y E R S O F A D S G E O S Y N T H E T I C S 3 1 5 W T K W O V E N G E O T E X T I L E B E T W E E N F O U N D A T I O N S T O N E A N D C H A M B E R S 4 ' ( 1 . 2 m ) M I N W I D E C O N T I N U O U S F A B R I C W I T H O U T S E A M S C A T C H B A S I N O R M A N H O L E S C - 3 1 0 6 " I N S P E C T I O N P O R T D E T A I L N T S S C - 3 1 0 C H A M B E R F L E X S T O R M C A T C H I T P A R T # 6 2 1 2 N Y F X W I T H U S E O F O P E N G R A T E 6 " ( 1 5 0 m m ) I N S E R T A T E E P A R T # 0 6 N 1 2 S T 3 1 I P I N S E R T A T E E T O B E C E N T E R E D O N C O R R U G A T I O N C R E S T 6 " ( 1 5 0 m m ) A D S N - 1 2 H D P E P I P E C O N C R E T E C O L L A R 1 2 " ( 3 0 0 m m ) N Y L O P L A S T I N L I N E D R A I N B O D Y W / S O L I D H I N G E D C O V E R O R G R A T E P A R T # 2 7 1 2 A G 0 6 N S O L I D C O V E R : 1 2 9 9 C G C G R A T E : 1 2 9 9 C G S 1 8 " ( 4 5 0 m m ) M I N W I D T H C O N C R E T E S L A B 8 " ( 2 0 0 m m ) M I N T H I C K N E S S P A V E M E N T C O N C R E T E C O L L A R N O T R E Q U I R E D F O R U N P A V E D A P P L I C A T I O N 4 5 Icon Home Apartments - Chamber Bozeman, Montana 03/01/2017 SH S H E E T O F DATE: PROJECT #: DRAWN: CHECKED: THIS DRAWING HAS BEEN PREPARED BASED ON INFORMATION PROVIDED TO ADS UNDER THE DIRECTION OF THE SITE DESIGN ENGINEER OR OTHER PROJECT REPRESENTATIVE. THE SITE DESIGN ENGINEER SHALL REVIEW THIS DRAWING PRIOR TO CONSTRUCTION. IT IS THE ULTIMATE RESPONSIBILITY OF THE SITE DESIGN ENGINEER TO ENSURE THAT THE PRODUCT(S) DEPICTED AND ALL ASSOCIATED DETAILS MEET ALL APPLICABLE LAWS, REGULATIONS, AND PROJECT REQUIREMENTS. 4640 TRUEMAN BLVD HILLIARD, OH 43026 1-800-733-7473 REV DRW CHK DESCRIPTION Tool 5 ---860-529-8188 |888-892-2694 | WWW.STORMTECH.COM Detention Retention Water Quality P A R T # S T U B A B C S C 3 1 0 E P E 0 6 T / S C 3 1 0 E P E 0 6 T P C 6 " ( 1 5 0 m m ) 9 . 6 " ( 2 4 4 m m ) 5 . 8 " ( 1 4 7 m m ) - - - S C 3 1 0 E P E 0 6 B / S C 3 1 0 E P E 0 6 B P C - - - 0 . 5 " ( 1 3 m m ) S C 3 1 0 E P E 0 8 T / S C 3 1 0 E P E 0 8 T P C 8 " ( 2 0 0 m m ) 1 1 . 9 " ( 3 0 2 m m ) 3 . 5 " ( 8 9 m m ) - - - S C 3 1 0 E P E 0 8 B / S C 3 1 0 E P E 0 8 B P C - - - 0 . 6 " ( 1 5 m m ) S C 3 1 0 E P E 1 0 T / S C 3 1 0 E P E 1 0 T P C 1 0 " ( 2 5 0 m m ) 1 2 . 7 " ( 3 2 3 m m ) 1 . 4 " ( 3 6 m m ) - - - S C 3 1 0 E P E 1 0 B / S C 3 1 0 E P E 1 0 B P C - - - 0 . 7 " ( 1 8 m m ) S C 3 1 0 E P E 1 2 B 1 2 " ( 3 0 0 m m ) 1 3 . 5 " ( 3 4 3 m m ) - - - 0 . 9 " ( 2 3 m m ) A L L S T U B S , E X C E P T F O R T H E S C 3 1 0 E P E 1 2 B A R E P L A C E D A T B O T T O M O F E N D C A P S U C H T H A T T H E O U T S I D E D I A M E T E R O F T H E S T U B I S F L U S H W I T H T H E B O T T O M O F T H E E N D C A P . F O R A D D I T I O N A L I N F O R M A T I O N C O N T A C T S T O R M T E C H A T 1 - 8 8 8 - 8 9 2 - 2 6 9 4 . * F O R T H E S C 3 1 0 E P E 1 2 B T H E 1 2 " ( 3 0 0 m m ) S T U B L I E S B E L O W T H E B O T T O M O F T H E E N D C A P A P P R O X I M A T E L Y 0 . 2 5 " ( 6 m m ) . B A C K F I L L M A T E R I A L S H O U L D B E R E M O V E D F R O M B E L O W T H E N - 1 2 S T U B S O T H A T T H E F I T T I N G S I T S L E V E L . N O T E : A L L D I M E N S I O N S A R E N O M I N A L N O M I N A L C H A M B E R S P E C I F I C A T I O N S S I Z E ( W X H X I N S T A L L E D L E N G T H ) 3 4 . 0 " X 1 6 . 0 " X 8 5 . 4 " ( 8 6 4 m m X 4 0 6 m m X 2 1 6 9 m m ) C H A M B E R S T O R A G E 1 4 . 7 C U B I C F E E T P ñ M I N I M U M I N S T A L L E D S T O R A G E * 3 1 . 0 C U B I C F E E T P ñ W E I G H T 3 5 . 0 l b s . ( 1 6 . 8 k g ) * A S S U M E S 6 " ( 1 5 2 m m ) A B O V E , B E L O W , A N D B E T W E E N C H A M B E R S S T U B S A T B O T T O M O F E N D C A P F O R P A R T N U M B E R S E N D I N G W I T H " B " S T U B S A T T O P O F E N D C A P F O R P A R T N U M B E R S E N D I N G W I T H " T " 3 4 . 0 " ( 8 6 4 m m ) 1 6 . 0 " ( 4 0 6 m m ) 9 0 . 7 " ( 2 3 0 4 m m ) A C T U A L L E N G T H 8 5 . 4 " ( 2 1 6 9 m m ) I N S T A L L E D L E N G T H A C C E P T S 4 " ( 1 0 0 m m ) S C H 4 0 P V C P I P E F O R I N S P E C T I O N P O R T . F O R P I P E S I Z E S L A R G E R T H A N 4 " ( 1 0 0 m m ) U P T O 1 0 " ( 2 5 0 m m ) U S E I N S E R T A T E E C O N N E C T I O N C E N T E R E D O N A C H A M B E R C R E S T C O R R U G A T I O N O V E R L A P N E X T C H A M B E R H E R E ( O V E R S M A L L C O R R U G A T I O N ) B U I L D R O W I N T H I S D I R E C T I O N S T A R T E N D A A B C S C - 3 1 0 T E C H N I C A L S P E C I F I C A T I O N N T S 9 . 9 " ( 2 5 1 m m ) 4 5 . 9 " ( 1 1 6 6 m m ) 1 5 . 6 " ( 3 9 6 m m ) I N S E R T A T E E D E T A I L N T S I N S E R T A T E E C O N N E C T I O N C O N V E Y A N C E P I P E M A T E R I A L M A Y V A R Y ( P V C , H D P E , E T C . ) P L A C E A D S G E O S Y N T H E T I C S 3 1 5 W O V E N G E O T E X T I L E ( C E N T E R E D O N I N S E R T A - T E E I N L E T ) O V E R B E D D I N G S T O N E F O R S C O U R P R O T E C T I O N A T S I D E I N L E T C O N N E C T I O N S . G E O T E X T I L E M U S T E X T E N D 6 " ( 1 5 0 m m ) P A S T C H A M B E R F O O T I N S E R T A T E E T O B E I N S T A L L E D , C E N T E R E D O V E R C O R R U G A T I O N S I D E V I E W S E C T I O N A - A A A D O N O T I N S T A L L I N S E R T A - T E E A T C H A M B E R J O I N T S N O T E : P A R T N U M B E R S W I L L V A R Y B A S E D O N I N L E T P I P E M A T E R I A L S . C O N T A C T S T O R M T E C H F O R M O R E I N F O R M A T I O N . C H A M B E R M A X D I A M E T E R O F I N S E R T A T E E H E I G H T F R O M B A S E O F C H A M B E R ( X ) S C - 3 1 0 6 " ( 1 5 0 m m ) 4 " ( 1 0 0 m m ) S C - 7 4 0 1 0 " ( 2 5 0 m m ) 4 " ( 1 0 0 m m ) D C - 7 8 0 1 0 " ( 2 5 0 m m ) 4 " ( 1 0 0 m m ) M C - 3 5 0 0 1 2 " ( 3 0 0 m m ) 6 " ( 1 5 0 m m ) M C - 4 5 0 0 1 2 " ( 3 0 0 m m ) 8 " ( 2 0 0 m m ) I N S E R T A T E E F I T T I N G S A V A I L A B L E F O R S D R 2 6 , S D R 3 5 , S C H 4 0 I P S G A S K E T E D & S O L V E N T W E L D , N - 1 2 , H P S T O R M , C - 9 0 0 O R D U C T I L E I R O N ( X ) I N T E N T I O N A L L Y L E F T B L A N K 5 5 Icon Home Apartments - Chamber Bozeman, Montana 03/01/2017 SH V:17007_02_Storm_Drainage_Plan_030716_SC 12 (03/07/18) SN/jil Appendix D PIPE CAPACITIES Icon Home Apartments Project #:17007.02 3/7/2018 Standard Single Inlet Qdesign 1.49 cfs Peak Flow n 0.012 RCP Mannings Roughness Coefficient d 12 inches Pipe Diameter S 0.0022 ft/ft Pipe Slope R 0.25 ft2 Hydraulic Radius A 0.7854 ft2 Area Q100 1.81524 cfs Flow Capacity Double Inlet to MHA Qdesign 5.37 cfs Peak Flow n 0.012 RCP Mannings Roughness Coefficient d 15 inches Pipe Diameter S 0.006 ft/ft Pipe Slope R 0.3125 ft2 Hydraulic Radius A 1.22719 ft2 Area Q100 5.43532 cfs Flow Capacity Double Inlet to MHC Qdesign 2.98 cfs Peak Flow n 0.012 RCP Mannings Roughness Coefficient d 15 inches Pipe Diameter S 0.0022 ft/ft Pipe Slope R 0.3125 ft2 Hydraulic Radius A 1.22719 ft2 Area Q100 3.29125 cfs Flow Capacity Double Inlet to MHD Qdesign 1.99 cfs Peak Flow n 0.012 RCP Mannings Roughness Coefficient d 15 inches Pipe Diameter S 0.0015 ft/ft Pipe Slope R 0.3125 ft2 Hydraulic Radius A 1.22719 ft2 Area Q100 2.71766 cfs Flow Capacity Storm Drain Pipe Flow From Inlet to Manhole Icon Home Apartments Project #:17007.02 3/7/2018 MHA to MHB - Watershed 2 Qdesign 5.37 cfs Peak Flow n 0.012 RCP Mannings Roughness Coefficient d 15 inches Pipe Diameter S 0.012 ft/ft Pipe Slope R 0.3125 ft2 Hydraulic Radius A 1.22719 ft2 Area Q100 7.6867 cfs Flow Capacity MHB to MHC - Watershed 2 & 1 Qdesign 10.77 cfs Peak Flow n 0.012 RCP Mannings Roughness Coefficient d 18 inches Pipe Diameter S 0.0112 ft/ft Pipe Slope R 0.375 ft2 Hydraulic Radius A 1.76715 ft2 Area Q100 12.0756 cfs Flow Capacity MHC to Chamber A - Watershed 2 & 1 & 18 & 24 Qdesign 22.9 cfs Peak Flow n 0.012 RCP Mannings Roughness Coefficient d 24 inches Pipe Diameter S 0.009 ft/ft Pipe Slope R 0.5 ft2 Hydraulic Radius A 3.1416 ft2 Area Q100 23.3126 cfs Flow Capacity Storm Drain Pipe Flow To Chamber A Icon Home Apartments Project #:17007.02 3/7/2018 MHD to MHE - Watershed 25 & 26 Qdesign 3.39 cfs Peak Flow n 0.012 RCP Mannings Roughness Coefficient d 15 inches Pipe Diameter S 0.0112 ft/ft Pipe Slope R 0.3125 ft2 Hydraulic Radius A 1.22719 ft2 Area Q100 7.42606 cfs Flow Capacity MHE to Chamber F - Watershed 25 & 26 & 32 Qdesign 8.67 cfs Peak Flow n 0.012 RCP Mannings Roughness Coefficient d 18 inches Pipe Diameter S 0.0128 ft/ft Pipe Slope R 0.375 ft2 Hydraulic Radius A 1.76715 ft2 Area Q100 12.9093 cfs Flow Capacity Inlets to Chamber F - Watershed 39 Qdesign 2.28 cfs Peak Flow n 0.012 RCP Mannings Roughness Coefficient d 12 inches Pipe Diameter S 0.0128 ft/ft Pipe Slope R 0.25 ft2 Hydraulic Radius A 0.7854 ft2 Area Q100 4.37852 cfs Flow Capacity Storm Drain Pipe Flow To Chamber F Icon Home Apartments Project #:17007.02 3/7/2018 MHF to Chamber C - Watershed 23 & 27 Qdesign 5.19 cfs Peak Flow n 0.012 RCP Mannings Roughness Coefficient d 15 inches Pipe Diameter S 0.006 ft/ft Pipe Slope R 0.3125 ft2 Hydraulic Radius A 1.22719 ft2 Area Q100 5.43532 cfs Flow Capacity Storm Drain Pipe Flow To Chamber C Project: Icon Home Apartments Project #: 17007.02 Date: 7/25/2017 Design Storm Frequency =25 years Discharge Rate, d =0.00 cfs Input values for runoff coefficients from appropriate tables. Area Area Runoff Coefficient Frequency Factor Calculation Value A A/(43560 ft2/acre)C Cf C x Cf C' C' x A (ft2)(Acres)=(C x Cf) < or = 1 (Acres) 20625 0.473 0.9 1.1 0.99 0.99 0.46875 6910 0.159 0.2 1.1 0.22 0.22 0.03489899 0 1.1 0.00 0.00 0 0 1.1 0.00 0.00 0 0 1.1 0.00 0.00 0 27535 0.6321 0.5036 Weighted Runoff Coefficient, Cwd SCjAj SAj Cwd x Cf x SAj =0.50 Where Cj is the adjusted runoff coefficient for surface type j and Aj is the area of surface type j Rainfall Rainfall Peak Flow Duration, t Intensity, i = Cwd x SAj x i (min) (in/hr)(ft3/s) 1 10.72 5.40 5 3.83 1.93 10 2.46 1.24 15 1.89 0.95 20 1.58 0.79 25 1.37 0.69 30 1.22 0.61 35 1.10 0.55 40 1.01 0.51 45 0.94 0.47 50 0.88 0.44 55 0.82 0.42 60 0.78 0.39 75 0.68 0.34 90 0.60 0.30 105 0.55 0.27 120 0.50 0.25 150 0.43 0.22 180 0.39 0.19 360 0.25 0.12 720 0.16 0.08 1440 0.10 ft3 5.40 (ft3/s) 3459.64 0.00 3459.64 4440.19 0.00 4440.19 2100.34 0.00 2100.34 2695.63 0.00 2695.63 1815.08 0.00 1815.08 1966.91 0.00 1966.91 1636.51 0.00 1636.51 1729.89 0.00 1729.89 1414.25 0.00 1414.25 1532.54 0.00 1532.54 1324.40 0.00 1324.40 1370.63 0.00 1370.63 1222.17 0.00 1222.17 1275.11 0.00 1275.11 1101.93 0.00 1101.93 1164.81 0.00 1164.81 952.27 0.00 952.27 1031.93 0.00 1031.93 741.98 0.00 741.98 858.59 0.00 858.59 323.88 0.00 323.88 578.12 0.00 578.12 = Cwd x SAj x i x t = d x t = Runoff Volume - Discharge Volume (ft3) (ft3) (ft3) = 0.7243 Cwd x Cf =0.80 Runoff Volume Discharge Volume Site Detention = Landscape Totals Impervious RATIONAL METHOD FOR PEAK FLOW CALCULATIONS Post-Project Watershed 1 Surface Type = Project: Icon Home Apartments Project #: 17007.02 Date: 7/25/2017 Design Storm Frequency =25 years Discharge Rate, d =0.00 cfs Input values for runoff coefficients from appropriate tables. Area Area Runoff Coefficient Frequency Factor Calculation Value A A/(43560 ft2/acre)C Cf C x Cf C' C' x A (ft2)(Acres)=(C x Cf) < or = 1 (Acres) 20969 0.481 0.9 1.1 0.99 0.99 0.476568182 4840 0.111 0.2 1.1 0.22 0.22 0.024444444 0 1.1 0.00 0.00 0 0 1.1 0.00 0.00 0 0 1.1 0.00 0.00 0 25809 0.5925 0.5010 Weighted Runoff Coefficient, Cwd SCjAj SAj Cwd x Cf x SAj =0.50 Where Cj is the adjusted runoff coefficient for surface type j and Aj is the area of surface type j Rainfall Rainfall Peak Flow Duration, t Intensity, i = Cwd x SAj x i (min) (in/hr)(ft3/s) 1 10.72 5.37 5 3.83 1.92 10 2.46 1.23 15 1.89 0.95 20 1.58 0.79 25 1.37 0.68 30 1.22 0.61 35 1.10 0.55 40 1.01 0.51 45 0.94 0.47 50 0.88 0.44 55 0.82 0.41 60 0.78 0.39 75 0.68 0.34 90 0.60 0.30 105 0.55 0.27 120 0.50 0.25 150 0.43 0.22 180 0.39 0.19 360 0.25 0.12 720 0.16 0.08 1440 0.10 ft3 5.37 (ft3/s) 3441.53 0.00 3441.53 4416.94 0.00 4416.94 2089.34 0.00 2089.34 2681.51 0.00 2681.51 1805.58 0.00 1805.58 1956.61 0.00 1956.61 1627.94 0.00 1627.94 1720.84 0.00 1720.84 1406.84 0.00 1406.84 1524.52 0.00 1524.52 1317.47 0.00 1317.47 1363.46 0.00 1363.46 1215.77 0.00 1215.77 1268.43 0.00 1268.43 1096.16 0.00 1096.16 1158.71 0.00 1158.71 947.29 0.00 947.29 1026.53 0.00 1026.53 738.09 0.00 738.09 854.09 0.00 854.09 322.19 0.00 322.19 575.10 0.00 575.10 = Cwd x SAj x i x t = d x t = Runoff Volume - Discharge Volume (ft3) (ft3) (ft3) = 0.7687 Cwd x Cf =0.85 Runoff Volume Discharge Volume Site Detention Landscape Totals = RATIONAL METHOD FOR PEAK FLOW CALCULATIONS Post-Project Watershed 2 Surface Type Impervious = Project: Icon Home Apartments Project #: 17007.02 Date: 7/25/2017 Design Storm Frequency =25 years Discharge Rate, d =0.00 cfs Input values for runoff coefficients from appropriate tables. Area Area Runoff Coefficient Frequency Factor Calculation Value A A/(43560 ft2/acre)C Cf C x Cf C' C' x A (ft2)(Acres)=(C x Cf) < or = 1 (Acres) 46238 1.061 0.9 1.1 0.99 0.99 1.050863636 15963 0.366 0.2 1.1 0.22 0.22 0.080621212 0 1.1 0.00 0.00 0 0 1.1 0.00 0.00 0 0 1.1 0.00 0.00 0 62201 1.4279 1.1315 Weighted Runoff Coefficient, Cwd SCjAj SAj Cwd x Cf x SAj =1.13 Where Cj is the adjusted runoff coefficient for surface type j and Aj is the area of surface type j Rainfall Rainfall Peak Flow Duration, t Intensity, i = Cwd x SAj x i (min) (in/hr)(ft3/s) 1 10.72 12.13 5 3.83 4.33 10 2.46 2.78 15 1.89 2.14 20 1.58 1.78 25 1.37 1.55 30 1.22 1.38 35 1.10 1.25 40 1.01 1.14 45 0.94 1.06 50 0.88 0.99 55 0.82 0.93 60 0.78 0.88 75 0.68 0.77 90 0.60 0.68 105 0.55 0.62 120 0.50 0.57 150 0.43 0.49 180 0.39 0.44 360 0.25 0.28 720 0.16 0.18 1440 0.10 ft3 12.13 (ft3/s) 7772.33 0.00 7772.33 9975.21 0.00 9975.21 4718.56 0.00 4718.56 6055.92 0.00 6055.92 4077.71 0.00 4077.71 4418.80 0.00 4418.80 3676.53 0.00 3676.53 3886.33 0.00 3886.33 3177.21 0.00 3177.21 3442.97 0.00 3442.97 2975.37 0.00 2975.37 3079.23 0.00 3079.23 2745.70 0.00 2745.70 2864.63 0.00 2864.63 2475.57 0.00 2475.57 2616.83 0.00 2616.83 2139.35 0.00 2139.35 2318.30 0.00 2318.30 1666.91 0.00 1666.91 1928.88 0.00 1928.88 727.63 0.00 727.63 1298.79 0.00 1298.79 = Cwd x SAj x i x t = d x t = Runoff Volume - Discharge Volume (ft3) (ft3) (ft3) = 0.7204 Cwd x Cf =0.79 Runoff Volume Discharge Volume Site Detention Landscape Totals = RATIONAL METHOD FOR PEAK FLOW CALCULATIONS Post-Project Watershed 18 & 24 Surface Type Impervious = Project: Icon Home Apartments Project #: 17007.02 Date: 7/25/2017 Design Storm Frequency =25 years Discharge Rate, d =0.00 cfs Input values for runoff coefficients from appropriate tables. Area Area Runoff Coefficient Frequency Factor Calculation Value A A/(43560 ft2/acre)C Cf C x Cf C' C' x A (ft2)(Acres)=(C x Cf) < or = 1 (Acres) 19950 0.458 0.9 1.1 0.99 0.99 0.453409091 7626 0.175 0.2 1.1 0.22 0.22 0.038515152 0 1.1 0.00 0.00 0 0 1.1 0.00 0.00 0 0 1.1 0.00 0.00 0 27576 0.6331 0.4919 Weighted Runoff Coefficient, Cwd SCjAj SAj Cwd x Cf x SAj =0.49 Where Cj is the adjusted runoff coefficient for surface type j and Aj is the area of surface type j Rainfall Rainfall Peak Flow Duration, t Intensity, i = Cwd x SAj x i (min) (in/hr)(ft3/s) 1 10.72 5.27 5 3.83 1.88 10 2.46 1.21 15 1.89 0.93 20 1.58 0.78 25 1.37 0.67 30 1.22 0.60 35 1.10 0.54 40 1.01 0.50 45 0.94 0.46 50 0.88 0.43 55 0.82 0.41 60 0.78 0.38 75 0.68 0.33 90 0.60 0.30 105 0.55 0.27 120 0.50 0.25 150 0.43 0.21 180 0.39 0.19 360 0.25 0.12 720 0.16 0.08 1440 0.10 ft3 5.27 (ft3/s) 3379.10 0.00 3379.10 4336.82 0.00 4336.82 2051.44 0.00 2051.44 2632.87 0.00 2632.87 1772.83 0.00 1772.83 1921.12 0.00 1921.12 1598.41 0.00 1598.41 1689.62 0.00 1689.62 1381.32 0.00 1381.32 1496.87 0.00 1496.87 1293.57 0.00 1293.57 1338.73 0.00 1338.73 1193.72 0.00 1193.72 1245.42 0.00 1245.42 1076.28 0.00 1076.28 1137.69 0.00 1137.69 930.10 0.00 930.10 1007.90 0.00 1007.90 724.70 0.00 724.70 838.60 0.00 838.60 316.34 0.00 316.34 564.66 0.00 564.66 = Cwd x SAj x i x t = d x t = Runoff Volume - Discharge Volume (ft3) (ft3) (ft3) = 0.7064 Cwd x Cf =0.78 Runoff Volume Discharge Volume Site Detention Landscape Totals = RATIONAL METHOD FOR PEAK FLOW CALCULATIONS Post-Project Watershed 24 Surface Type Impervious = Project: Icon Home Apartments Project #: 17007.02 Date: 7/25/2017 Design Storm Frequency =25 years Discharge Rate, d =0.00 cfs Input values for runoff coefficients from appropriate tables. Area Area Runoff Coefficient Frequency Factor Calculation Value A A/(43560 ft2/acre)C Cf C x Cf C' C' x A (ft2)(Acres)=(C x Cf) < or = 1 (Acres) 12396 0.285 0.9 1.1 0.99 0.99 0.281727273 6888 0.158 0.2 1.1 0.22 0.22 0.034787879 0 1.1 0.00 0.00 0 0 1.1 0.00 0.00 0 0 1.1 0.00 0.00 0 19284 0.4427 0.3165 Weighted Runoff Coefficient, Cwd SCjAj SAj Cwd x Cf x SAj =0.32 Where Cj is the adjusted runoff coefficient for surface type j and Aj is the area of surface type j Rainfall Rainfall Peak Flow Duration, t Intensity, i = Cwd x SAj x i (min) (in/hr)(ft3/s) 1 10.72 3.39 5 3.83 1.21 10 2.46 0.78 15 1.89 0.60 20 1.58 0.50 25 1.37 0.43 30 1.22 0.38 35 1.10 0.35 40 1.01 0.32 45 0.94 0.30 50 0.88 0.28 55 0.82 0.26 60 0.78 0.25 75 0.68 0.21 90 0.60 0.19 105 0.55 0.17 120 0.50 0.16 150 0.43 0.14 180 0.39 0.12 360 0.25 0.08 720 0.16 0.05 1440 0.10 ft3 3.39 (ft3/s) 2174.19 0.00 2174.19 2790.41 0.00 2790.41 1319.94 0.00 1319.94 1694.05 0.00 1694.05 1140.68 0.00 1140.68 1236.09 0.00 1236.09 1028.45 0.00 1028.45 1087.14 0.00 1087.14 888.77 0.00 888.77 963.12 0.00 963.12 832.31 0.00 832.31 861.37 0.00 861.37 768.07 0.00 768.07 801.33 0.00 801.33 692.50 0.00 692.50 732.02 0.00 732.02 598.45 0.00 598.45 648.51 0.00 648.51 466.29 0.00 466.29 539.57 0.00 539.57 203.54 0.00 203.54 363.32 0.00 363.32 = Cwd x SAj x i x t = d x t = Runoff Volume - Discharge Volume (ft3) (ft3) (ft3) = 0.6500 Cwd x Cf =0.71 Runoff Volume Discharge Volume Site Detention Landscape Totals = RATIONAL METHOD FOR PEAK FLOW CALCULATIONS Post-Project Watershed 25 & 26 Surface Type Impervious = Project: Icon Home Apartments Project #: 17007.02 Date: 7/25/2017 Design Storm Frequency =25 years Discharge Rate, d =0.00 cfs Input values for runoff coefficients from appropriate tables. Area Area Runoff Coefficient Frequency Factor Calculation Value A A/(43560 ft2/acre)C Cf C x Cf C' C' x A (ft2)(Acres)=(C x Cf) < or = 1 (Acres) 19415 0.446 0.9 1.1 0.99 0.99 0.44125 10127 0.232 0.2 1.1 0.22 0.22 0.051146465 0 1.1 0.00 0.00 0 0 1.1 0.00 0.00 0 0 1.1 0.00 0.00 0 29542 0.6782 0.4924 Weighted Runoff Coefficient, Cwd SCjAj SAj Cwd x Cf x SAj =0.49 Where Cj is the adjusted runoff coefficient for surface type j and Aj is the area of surface type j Rainfall Rainfall Peak Flow Duration, t Intensity, i = Cwd x SAj x i (min) (in/hr)(ft3/s) 1 10.72 5.28 5 3.83 1.88 10 2.46 1.21 15 1.89 0.93 20 1.58 0.78 25 1.37 0.67 30 1.22 0.60 35 1.10 0.54 40 1.01 0.50 45 0.94 0.46 50 0.88 0.43 55 0.82 0.41 60 0.78 0.38 75 0.68 0.33 90 0.60 0.30 105 0.55 0.27 120 0.50 0.25 150 0.43 0.21 180 0.39 0.19 360 0.25 0.12 720 0.16 0.08 1440 0.10 ft3 5.28 (ft3/s) 3382.34 0.00 3382.34 4340.98 0.00 4340.98 2053.41 0.00 2053.41 2635.40 0.00 2635.40 1774.53 0.00 1774.53 1922.96 0.00 1922.96 1599.94 0.00 1599.94 1691.24 0.00 1691.24 1382.65 0.00 1382.65 1498.30 0.00 1498.30 1294.81 0.00 1294.81 1340.01 0.00 1340.01 1194.87 0.00 1194.87 1246.62 0.00 1246.62 1077.31 0.00 1077.31 1138.79 0.00 1138.79 931.00 0.00 931.00 1008.87 0.00 1008.87 725.40 0.00 725.40 839.40 0.00 839.40 316.65 0.00 316.65 565.21 0.00 565.21 = Cwd x SAj x i x t = d x t = Runoff Volume - Discharge Volume (ft3) (ft3) (ft3) = 0.6600 Cwd x Cf =0.73 Runoff Volume Discharge Volume Site Detention Landscape Totals = RATIONAL METHOD FOR PEAK FLOW CALCULATIONS Post-Project Watershed 32 Surface Type Impervious = Project: Icon Home Apartments Project #: 17007.02 Date: 7/25/2017 Design Storm Frequency =25 years Discharge Rate, d =0.00 cfs Input values for runoff coefficients from appropriate tables. Area Area Runoff Coefficient Frequency Factor Calculation Value A A/(43560 ft2/acre)C Cf C x Cf C' C' x A (ft2)(Acres)=(C x Cf) < or = 1 (Acres) 7088 0.163 0.9 1.1 0.99 0.99 0.161090909 10141 0.233 0.2 1.1 0.22 0.22 0.051217172 0 1.1 0.00 0.00 0 0 1.1 0.00 0.00 0 0 1.1 0.00 0.00 0 17229 0.3955 0.2123 Weighted Runoff Coefficient, Cwd SCjAj SAj Cwd x Cf x SAj =0.21 Where Cj is the adjusted runoff coefficient for surface type j and Aj is the area of surface type j Rainfall Rainfall Peak Flow Duration, t Intensity, i = Cwd x SAj x i (min) (in/hr)(ft3/s) 1 10.72 2.28 5 3.83 0.81 10 2.46 0.52 15 1.89 0.40 20 1.58 0.33 25 1.37 0.29 30 1.22 0.26 35 1.10 0.23 40 1.01 0.21 45 0.94 0.20 50 0.88 0.19 55 0.82 0.18 60 0.78 0.17 75 0.68 0.14 90 0.60 0.13 105 0.55 0.12 120 0.50 0.11 150 0.43 0.09 180 0.39 0.08 360 0.25 0.05 720 0.16 0.03 1440 0.10 ft3 2.28 (ft3/s) 1458.37 0.00 1458.37 1871.71 0.00 1871.71 885.38 0.00 885.38 1136.31 0.00 1136.31 765.13 0.00 765.13 829.13 0.00 829.13 689.85 0.00 689.85 729.22 0.00 729.22 596.16 0.00 596.16 646.03 0.00 646.03 558.29 0.00 558.29 577.78 0.00 577.78 515.19 0.00 515.19 537.51 0.00 537.51 464.51 0.00 464.51 491.01 0.00 491.01 401.42 0.00 401.42 435.00 0.00 435.00 312.77 0.00 312.77 361.93 0.00 361.93 136.53 0.00 136.53 243.70 0.00 243.70 = Cwd x SAj x i x t = d x t = Runoff Volume - Discharge Volume (ft3) (ft3) (ft3) = 0.4880 Cwd x Cf =0.54 Runoff Volume Discharge Volume Site Detention Landscape Totals = RATIONAL METHOD FOR PEAK FLOW CALCULATIONS Post-Project Watershed 39 Surface Type Impervious = Project: Icon Home Apartments Project #: 17007.02 Date: 7/25/2017 Design Storm Frequency =25 years Discharge Rate, d =0.00 cfs Input values for runoff coefficients from appropriate tables. Area Area Runoff Coefficient Frequency Factor Calculation Value A A/(43560 ft2/acre)C Cf C x Cf C' C' x A (ft2)(Acres)=(C x Cf) < or = 1 (Acres) 19442 0.446 0.9 1.1 0.99 0.99 0.441863636 8443 0.194 0.2 1.1 0.22 0.22 0.042641414 0 1.1 0.00 0.00 0 0 1.1 0.00 0.00 0 0 1.1 0.00 0.00 0 27885 0.6402 0.4845 Weighted Runoff Coefficient, Cwd SCjAj SAj Cwd x Cf x SAj =0.48 Where Cj is the adjusted runoff coefficient for surface type j and Aj is the area of surface type j Rainfall Rainfall Peak Flow Duration, t Intensity, i = Cwd x SAj x i (min) (in/hr)(ft3/s) 1 10.72 5.19 5 3.83 1.85 10 2.46 1.19 15 1.89 0.92 20 1.58 0.76 25 1.37 0.66 30 1.22 0.59 35 1.10 0.53 40 1.01 0.49 45 0.94 0.45 50 0.88 0.42 55 0.82 0.40 60 0.78 0.38 75 0.68 0.33 90 0.60 0.29 105 0.55 0.26 120 0.50 0.24 150 0.43 0.21 180 0.39 0.19 360 0.25 0.12 720 0.16 0.08 1440 0.10 ft3 5.19 (ft3/s) 3328.13 0.00 3328.13 4271.41 0.00 4271.41 2020.50 0.00 2020.50 2593.16 0.00 2593.16 1746.09 0.00 1746.09 1892.14 0.00 1892.14 1574.30 0.00 1574.30 1664.14 0.00 1664.14 1360.49 0.00 1360.49 1474.29 0.00 1474.29 1274.06 0.00 1274.06 1318.53 0.00 1318.53 1175.72 0.00 1175.72 1226.64 0.00 1226.64 1060.05 0.00 1060.05 1120.54 0.00 1120.54 916.08 0.00 916.08 992.70 0.00 992.70 713.77 0.00 713.77 825.95 0.00 825.95 311.57 0.00 311.57 556.15 0.00 556.15 = Cwd x SAj x i x t = d x t = Runoff Volume - Discharge Volume (ft3) (ft3) (ft3) = 0.6881 Cwd x Cf =0.76 Runoff Volume Discharge Volume Site Detention Landscape Totals = RATIONAL METHOD FOR PEAK FLOW CALCULATIONS Post-Project Watershed 23 & 27 Surface Type Impervious =