26 1 24

15 10 1 18 4 2 21 5 3 22 2 4 5 26 1 24

14 15 10

1 2 2 2 3 2 3.1...................................... 2 3.2.................................... 2 3.3............................. 3 3.4.................................... 4 3.5...................................... 6 3.6............................... 6 4 6 4.1................................. 6 4.2................................ 6 4.3................................ 7 4.4................. 7 4.5............................... 7 4.6..................................... 7 5 8 5.1...................................... 8 5.2..................................... 10 5.3..................................... 14 5.4...................................... 18 5.5...................................... 20 5.6..................................... 22 5.7........ 27 5.8............................. 30 5.9.............................. 34 5.10................................. 38 5.11...................................... 40 5.12............................... 42 5.13.............. 45 49 1....................... 49 2............................. 50 1

1 2 1. * 1 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 3 3.1 η s [%] η b [%] η o [%] 3.2 T s [min] 1 kg 1 *1 2

t s [s/kg ] 3.2.1 3.2.2 θ s [] θ f [] (a) T s = T g ˆθf ˆθ s θ f θ s T s : [min] T g : [min] ˆθ s : [] ˆθ f : [] θ s : [] θ f : [] (a) 3.3 V c [/h] V m [/] T c [min/] 3.3.1 V c [/h] V m [/] T c [min/] 1 V c [/h] V m [/m] [m/min] 1 V m [/h] 3.3.2 V m [/] 1 V m [/m] 1 m V m [/] 3.3.3 T c [min/] V m [/] 1 T c [min/] 3

3.4 Q s [kwh/] Q c Q i [kwh/h] Q d [kwh/] Q il [kwh/h] 3.4.1 Q s [kwh/] P s [kwh/] 3.2.2 (b) Q s = P s ˆθf ˆθ s θ f θ s Q s : [kwh/] P s : [kwh/] ˆθ s : [] ˆθ f : [] θ s : [] θ f : [] (b) 3.4.2 Q c [kwh/h] [kwh/] T c [min/] P c [kwh] 1 1 p c [kw] Q c [kwh/h] Q c [kwh/h] [kwh/] 3.4.3 Q i [kwh/h] 3.2.1 1 1 1 1 2 3.4.4 Q il [kwh/h] 1 3.4.3 4

3.4.5 h d [h/] 3.4.6 h c [h/] V m [/] v d [/ ] h c [h/] 3.4.7 h i [h/] h d [h/] h c [h/] 3.4.8 h d [h/] h d [h/] 3.4.9 r c V m [/] [/] r c V m [/m] [/m] r c 3.4.10 Q d [kwh/] Q d [kwh/] h c [h/] (c) v d [/] v d [/ ] (d) n d [/] (e) h d [h/] h c [h/] h i [h/] v d [/] v d [/] n d [/] r c Q dh = n s Q s + h c Q c + h i Q i Q dv = n s Q s + v d Q c + (h d v d ) Q i V c V c Q dn = n d Q c (c) (d) (e) Q dh : [kwh/] Q dv : [kwh/] 5

Q dn : [kwh/] Q s : [kwh/] Q c : [kwh/h] [kwh/] [kwh/h] [kwh/] Q i : [kwh/h] V c : [/h] [/h] h c : [h/] h i : [h/] h d : [h/] v d : [/] [/] n s : [/] n d : [/] 3.5 I s I t I w 3.6 W d [l/] 4 4.1 4.2 2 2 (f) JIS S2103 JIS C9250 S 1 + S 2 2 (S 1 S 2 ) 100 ϵ S 1 : 1 S 2 : 2 (f) ϵ: [%] 5 % 10 % 6

4.3 1 m 2 2 25 θ h 60 4.4 18 *2 24 35 59 12 36 4.5 p c [kw] 90 % 105 % *3 p c [kw] 97 % 103 % 4.6 1 1 *2 *3 8 7

5 5.1 50 mm M s [kg] 5.1.1 * 4 70 % θ s [] θ s [] 45 θ s [] 50 θ f [] P t [kwh] η s [%] (5.1.1) η s = CM s(θ f θ s ) 3600 P t 100 (5.1.1) η s : [%] M s : [kg] θ f : [] θ s : [] P t : [kwh] C: 4.19 kj/kg 15 M b [kg] P b [kwh] η b [%] (5.1.2) η b = LM b 3600 P b 100 (5.1.2) η b : [%] M b : [kg] P b : [kwh] L: 2260 kj/kg * 5 *4 JIS S2103 *5 100 40.66[kJ/mol] 18[g/mol] 2.26[kJ/g] 8

5.1.2 70 % θ s [] 95 T g [min] t s [s/kg ] (5.1.3) t s = 60 T g M s (95 θ s ) (5.1.3) t s : [s/kg ] T g : 95 [min] M s : [kg] θ s : [] 5.1.3 5.1.4 Q c = p c (5.1.4) Q c : [kwh/h] p c : [kw] Q dh = h c Q c (5.1.5) Q dh : [kwh/] Q c : [kwh/h] h c : [h/] 2.5 h/ * 6 5.1.5 *6 4 h 2 h 6 h 0.5 h 9

5.2 [l] 2 2 2 2 5.2.1 190 θ c [] 1 *7 M w [kg] θ wi [] θ wo [] P w [kwh] η o [%] (5.2.1) η o = CM w(θ wo θ wi ) + T w P L 3600 P w 100 (5.2.1) η o : [%] M w : [kg] θ wo : [] θ wi : [] T w : [s] P L : 180 [kw] P w : [kwh] C: 4.19 kj/kg P L = (θ c θ r 155) Q i Q il 20 (5.2.2) *7 θ c 150 185 10

P L : 180 [kw] θ c : [] θ r : [] Q i : [kwh/h] (5.2.9) Q il : [kwh/h] (5.2.10) [l] 110 *8 15 M b [kg] P b [kwh] η b [%] (5.2.3) η b = LM b 3600 P b 100 (5.2.3) η b : [%] M b : [kg] P b : [kwh] L: 2260 kj/kg 5.2.2 θ s [] 180 175 T g [min] P s [kwh/ ] T s [min] (5.2.4) 180 160 T s = T g 180 25 175 θ s (5.2.4) T s : [min] T g : 175 [min] θ s : [] 5.2.3 60 g/ 180 177 V m [/] 177 5 V m [/] 3 80 T c [min/ ] *8 11

T c [min/] P c [kwh/] 3 6 V c [/h] (5.2.5) V c = V m 60 T c (5.2.5) V c : [/h] V m : [/] T c : [min/] 7 mm 180 177 V m [kg/] 177 5 V m [kg/] 170 2 30 3 80 T c [min/] T c [min/] P c [kwh/] 3 6 V c [kg/h] (5.2.6) V c = V m 60 T c (5.2.6) V c : [kg/h] V m : [kg/] T c : [min/] 5.2.4 Q s = P s 180 25 175 θ s (5.2.7) Q s : [kwh/] P s : [kwh/] θ s : [] Q c = P c 60 T c (5.2.8) Q c : [kwh/h] P c : [kwh/] T c : [min/] 12

Q i = P i 60 T i Q il = P i 60 T i 155 θ il + θ rl 60 θ i θ rh 155 + P il (5.2.9) θ i θ rh θ il + θ rl T il θ i θ rh θ il + θ rl 135 θ il + θ rl 60 θ i θ rh 135 + P il (5.2.10) θ i θ rh θ il + θ rl T il θ i θ rh θ il + θ rl Q i : [kwh/h] Q il : [kwh/h] P i : [kwh] P il : [kwh] T i : [min] T il : [min] θ i : [] θ il : [] θ rh : [] θ rl : [] Q dh = n s Q s + h c Q c + h i Q i (5.2.11) Q dv = n s Q s + v d V c Q c + (h d v d V c ) Q i (5.2.12) Q dh : [kwh/] Q dv : [kwh/] Q s : [kwh/] Q c : [kwh/h] Q i : [kwh/h] V c : [/h] [kg/h] h c : [h/] 3.5 h/ * 9 h i : [h/] 6.5 h/ h d : [h/] 10 h/ v d : [/] [kg/] 800 / 50 kg/ n s : [/] 1 / 5.2.5 *9 4 h 2.5 h 6 h 1 h 13

5.3 50 mm 3 3 3 100 mm a b 50 mm 100 mm 50 50 b b 50 50 50 50 a a a a 50 50 3 5.3.1 5.3.2 θ s [] 180 175 T g [min] P s [kwh/] * 10 T s [min] (5.3.1) 180 160 T s = T g 180 25 θ f θ s (5.3.1) *10 14

T s : [min] T g : 175 [min] θ f : 175 [] θ s : [] 5.3.3 150 g/ 20 mm 180 V m [/] 5 V m [/] 50 mm 1 125 mm 115 mm 5 V m [s] 9 3 75 3 V m [s] T c [min/] T c [min/] P c [kwh/] 3 6 V c [/h] (5.3.2) V c = V m 60 T c V c : [/h] V m : [/] T c : [min/] (5.3.2) 5.3.4 Q s = P s 180 25 θ f θ s (5.3.3) Q s : [kwh/] P s : [kwh/] θ f : 175 [] θ s : [] Q c = P c 60 T c Q c : [kwh/h] P c : [kwh/] T c : [min/] (5.3.4) 15

Q i = P i 60 T i Q il = P i 60 T i 155 θ il + θ rl 60 θ i θ rh 155 + P il (5.3.5) θ i θ rh θ il + θ rl T il θ i θ rh θ il + θ rl 135 θ il + θ rl 60 θ i θ rh 135 + P il (5.3.6) θ i θ rh θ il + θ rl T il θ i θ rh θ il + θ rl Q i : [kwh/h] Q il : [kwh/h] P i : [kwh] P il : [kwh] T i : [min] T il : [min] θ i : [] θ il : [] θ rh : [] θ rl : [] Q dh = n s Q s + h c Q c + h i Q i (5.3.7) Q dv = n s Q s + v d V c Q c + (h d v d V c ) Q i (5.3.8) Q dh : [kwh/] Q dv : [kwh/] Q s : [kwh/] Q c : [kwh/h] Q i : [kwh/h] V c : [/h] h c : [h/] 3.5 h/ * 11 h i : [h/] 6.5 h/ h d : [h/] 10 h/ v d : [/] 200 / n s : [/] 1 / 5.3.5 1 1 1 I s *11 4 h 2.5 h 6 h 1 h 16

(5.3.9) I s = 2 j i + j e 2 J i 100 (5.3.9) I s : J i : [] j i : θ a ± 10 [] j e : θ a ± 10 [] θ a : [] * 12 A p [m 2 ] θ a ± 10 θ a [] 10 *12 1 190 190 170 170 17

5.4 5.4.1 5.4.2 * 13 1 15 θ x [] 1 θ x [] θ g [] θ x [] (5.4.1) T s [min] θ g [] P s [kwh/] θ g [] 3 θ g = 0.9 θ x (5.4.1) θ g : [] θ x : [] 1 θ x θ x [] 600 700 700 5.4.3 5.4.4 Q s = P s (5.4.2) Q s : [kwh/] P s : [kwh/] Q c = p c (5.4.3) *13 1 18

Q c : [kwh/h] p c : [kw] T s 3 Q i 0 kwh/h Q i = P i 60 T i (5.4.4) Q i : [kwh/h] P i : [kwh] T i : [min] Q dh = n s Q s + h c Q c + h i Q i (5.4.5) Q dh : [kwh/] Q s : [kwh/] Q c : [kwh/h] Q i : [kwh/h] h c : [h/] 5 h/ * 14 h i : [h/] 2 h/ * 15 n s : [/] 12 / * 16 5.4.5 *14 4 h 4 h 6 h 1 h *15 6 h 1 h 3 h *16 1 2 1 10 19

5.5 5.5.1 1.8 * 17 θ s [] θ s [] 50 30 θ f [] P t [kwh] η s [%] (5.5.1) η s = CM s(θ f θ s ) 3600 P t 100 (5.5.1) η s : [%] M s : [kg] θ f : [] θ s : [] P t : [kwh] C: 4.19 kj/kg 5.5.2 5.5.3 V m [kg/ ] 30 V m [kg/ ] 1.3 15 ± 1 T c [min/] T c [min/] P c [kwh/ ] V c [kg/h] (5.5.2) V c = n k V m 60 T c (5.5.2) *17 1.3 2 0.37 + 0.63 0.155 0.47[cal/g] 1.8 20

V c : [kg/h] V m : [kg/ ] T c : [min/] n k : [] 5.5.4 Q c = n k P c (5.5.3) Q cw = P c V m (5.5.4) Q c : [kwh/] Q cw : 1 kg [kwh/kg] P c : [kwh/ ] V m : [kg/ ] n k : [] Q dn = n d Q c (5.5.5) Q dn : [kwh/] Q c : [kwh/] n d : [/] 1 / 5.5.5 21

5.6 5.6.1 θ s [] θ s [] 45 θ s [] 50 θ f [] P t [kwh] η s [%] (5.6.1) η s = CM s(θ f θ s ) 3600 P t 100 (5.6.1) η s : [%] M s : [kg] θ f : [] θ s : [] P t : [kwh] C: 4.19 kj/kg * 18 15 M b [kg] P b [kwh] η b [%] (5.6.2) η b = LM b 3600 P b 100 (5.6.2) η b : [%] M b : [kg] P b : [kwh] L: 2260 kj/kg 5.6.2 θ s [] 95 T g [min] P s [kwh/] T s [min] (5.6.3) 98 90 T s = T g 95 15 95 θ s (5.6.3) T s : [min] T g : 95 [min] θ s : [] *18 22

5.6.3 250 g/ 0.1V m [kg/min] V m [/] T y [s] T j [s] 98 5 V m [/] T y [s] V m [/] P c [kwh/] θ w [] 3 6 98 T r [s/] 3 5 M w [kg/min] M w θ w T h [s] 1 kg 0.8 kg 15 (5.6.4) T c [min/] (5.6.5) V c [/h] (5.6.6) T h = C { } m w V m (98 15) M w T y + T j 60 (98 θ 1 100 w) T r (5.6.4) p c η s T c = T r + T h 60 T c = T y + T j 60 (5.6.5) V c = V m 60 T c (5.6.6) V c : [/h] V m : [/] T c : [min/] T r : 98 [s/] T h : M w θ w [s] T y : [s] T j : [s] 15 s θ w : [] M w : [kg/min] m w : [kg/] 0.2 kg/ * 19 p c : [kw] η s : [%] C: 4.19 kj/kg *19 0.25 kg/ 0.8 kg/kg= 0.2 kg/ 23

5.6.4 Q s = P s 95 15 95 θ s (5.6.7) Q s : [kwh/] P s : [kwh/] θ s : [] Q c = P c 60 T r (5.6.8) Q c : [kwh/h] P c : [kwh/] T r : 98 [min/] Q i = P i 60 T i (5.6.9) Q i : [kwh/h] P i : [kwh] T i : [min] Q dh = n s Q s + h c Q c + h i Q i (5.6.10) Q dv = n s Q s + v d V c 1 r c Q c + (h d v d V c 1 r c ) Q i (5.6.11) Q dh : [kwh/] Q dv : [kwh/] Q s : [kwh/] Q c : [kwh/h] Q i : [kwh/h] V c : [/h] h c : [h/] 5 h/ * 20 h i : [h/] 5 h/ h d : [h/] 10 h/ r c : 0.4 v d : [/] 400 / n s : [/] 1 / *20 4 h 4 h 6 h 1 h 24

5.6.5 5.6.6 W s [l/] [l] W L [l/kg] W c [l/h] W L [l/kg] 1 kg W L1 1 kg W L2 W L = W L1 + W L2 (5.6.12) W c = f b M b 60 T b (5.6.13) W L : [l/kg] W L1 : [l/kg] 0.5 l/kg * 21 W L2 : [l/kg] 0.3 l/kg W c : [l/h] M b : [l]1 l/kg T b : [min] f b : 0.6 * 22 W i = M i 60 T i (5.6.14) W i : [l/h] M i : [l]1 l/kg T i : [min] W dh = n s W s + h c (m c V c r c W L + W c ) + h i W i (5.6.15) W dv = n s W s + m c v d W L + v d V c 1 r c W c + (h d v d V c 1 r c )W i (5.6.16) W dh : [l/] *21 [l/kg] 0.1 l/kg (0.75 0.647)/(1 0.75) + 0.1 0.5 32 3 40 7 pp.30-401998 7 20122012 2 1.8 l/kg 2.0 l/kg 1.2 l/kg 2.2 l/kg 1.0 l/kg 1.7 l/kg 1.6 l/kg *22 1 r c = 0.6 25

W dv : [l/] W s : [l/] W L : [l/kg] W c : [l/h] W i : [l/h] V c : [/h] h c : [h/] 5 h/ * 23 h i : [h/] 5 h/ h d : [h/] 10 h/ r c : 0.4 v d : [/] 400 / m c : 0.25 kg/ n s : [/] 1 / *23 4 h 4 h 6 h 1 h 26

5.7 5.7.1 5.7.2 θ s [] 2 3 2 2 2 T g [min] P s [kwh/] T s [min] (5.7.1) T s = T g ˆθf 25 θ f θ s (5.7.1) T s : [min] T g : [min] ˆθ f : [] θ s : [] θ f : [] 2 250 100 95 * 24 250 5.7.3 60 g/ 60 g/ V m [/] 80 V m [/] 1 * 25 1 80 mm 65 mm 1 T c [min/] *24 50 % *25 1/1 1 24 27

* 26 T c [min/] P c [kwh/] 5.7.4 2 2 Q s = P s 250 25 θ f θ s (5.7.2) Q s : [kwh/] P s : [kwh/] θ s : [] θ f : [] Q c = P c (5.7.3) Q c : [kwh/] P c : [kwh/] 2 2 Q i = P i 60 T i (5.7.4) Q i : [kwh/h] P i : [kwh] T i : [min] Q dn = n s Q s + n d Q c (5.7.5) Q dn : [kwh/] Q s : [kwh/] Q c : [kwh/] n s : [/] 1 / n d : [/] 1 / *26 28

5.7.5 * 27 6 * 28 8 250 * 29 1 10 3 0.5 I t 3 *27 JIS S2103 *28 1 8 1 8 *29 1 5 29

5.8 5.8.1 5.8.2 θ s [] T 1 [min] 60 T 2 [min] 80 T 3 [min] P s [kwh/] T s [min] (5.8.1) (5.8.2) 60 80 * 30 T s = T 2 T s = T 3 80 20 80 θ s (5.8.1) T s = T 2 80 60 (5.8.2) T s = T 1 + (T 3 T 1 ) 80 θ h T s : [min] T 1 : [min] T 2 : 60 [min] T 3 : 80 [min] θ s : [] θ h : [] 5.8.3 5.8.2 16 V m [/] T p [s] T j [s] 11 *30 JFEA007-2012 30

500 mm 500 mm 230 mm V m [/] [] 40 T j [s] 4 60 T c [s/] (5.8.3) P c [kwh/] 6 11 * 31 θ t [] 60 T r [s] 6 10 V c [/h] (5.8.4) 82 60 T c = (T p + T j ) θ t θ h T c = T p + T (5.8.3) r T c = T p + T j0 V c = V m 3600 T c V c : [/h] V m : [/] T c : [s/] T p : [s] T j : [s] T r : 60 [s] * 32 T j0 : [s] 5 s θ h : [] θ t : [] (5.8.4) T p [s] T j [s] 80 60 θ t [] 60 T r [s] 4 *31 1 *32 60 0 s 31

5.8.4 Q s = P s + C 3600 {(θ h 60)W s + (θ s 20)W r } Q s : [kwh/] P s : [kwh/] θ h : [] θ s : [] W s : [l/] W r : [l/] C: 4.19 kj/kg (5.8.5) Q r = P r + C } {(θ h 60)W s + (θ s 80)W r 3600 Q r : [kwh/] P r : [kwh/] θ h : [] θ s : [] W s : [l/] W r : [l/] C: 4.19 kj/kg (5.8.6) Q c = P c 3600 T c + CV c(θ h 60)W c 3600 Q c : [kwh/h] P c : [kwh/] T c : [s/] θ h : [] W c : [l/] V c : [/h] C: 4.19 kj/kg (5.8.7) 60 Q i = P i T i Q i : [kwh/h] P i : [kwh] T i : [min] (5.8.8) 32

Q dv = n s Q s + n r Q r + v d V c Q c + (h d v d V c ) Q i (5.8.9) Q dv : [kwh/] Q s : [kwh/] Q r : [kwh/] Q i : [kwh/h] Q c : [kwh/h] V c : [/h] h d : [h/] 10 h/ v d : [/] 100 / n s : [/] 1 / n r : [/] 1 / 5.8.5 5.8.6 W s [l/] W c [l/] W dv = (n s + n r )W s + v d W c (5.8.10) W dv : [l/] W s : [l/] W c : [l/] n s : [/] 1 / n r : [/] 1 / v d : [/] 100 / 33

5.9 JFEA007-2012 JFEA007-2012 5.9.1 5.9.2 θ s [] 40 T 1 [min] 60 T 2 [min] 65 T 3 [min] 80 T 4 [min] P s [kwh/] T s [min] (5.9.1) 40 60 65 80 * 33 T s = T 1 T s = T 2 + C(θ h 60)W f 60 p f T s = T 3 + C(θ h 60)W m 60 p m 80 20 T s = T 4 80 θ s (5.9.1) *33 JFEA007-2012 34

T s : [min] T 1 : 40 [min] T 2 : 60 [min] T 3 : 65 [min] T 4 : 80 [min] θ s : [] θ h : [] W f : [l] W m : [l] p f : [kw] p m : [kw] C: 4.19 kj/kg 5.9.3 V c [/h] V m [/m] * 34 (5.9.2) V c = 60 V m S c (5.9.2) V c : [/h] V m : [/m] S c : [m/min] * 35 180 mm V m [/m] 60 % * 36 230 mm V m [/m] 500 mm 500 mm 16 230 mm V m [/m] 32 /m V m [/m] 180 mm *34 1 m *35 JFEA007-2012 *36 DSP S 2030 B 70 % 76 % π/4 0.76 0.6 35

5.9.4 Q s = P s + C 3600 {(θ h 60)W s + (θ s 20)W r } Q s : [kwh/] P s : [kwh/] θ h : [] θ s : [] 20 W s : [l/] 5.9.6 W r : [l/] C: 4.19 kj/kg (5.9.3) 60 ± 5 60 Q c0 = P c0 + C(θ h 60)W c T c0 3600 Q c0 : [kwh/h] P c0 : [kwh] T c0 : [min] θ h : [] W c : [l/h] C: 4.19 kj/kg (5.9.4) * 37 Q c = Q c0 + C d θ d m d V c 3600 Q c : [kwh/h] Q c0 : [kwh/h] V c : [/h] θ d : [] 45 30 m d : [kg/] 180 mm 0.26 kg/ 230 mm 0.42 kg/ 180 mm 0.14 kg/ C d : [kj/kg ] 1 kj/kg 1.7 kj/kg (5.9.5) *37 30 75 36

Q i = P i 60 T i Q i : [kwh/h] P i : [kwh] T i : [min] (5.9.6) * 38 Q dh = n s Q s + h c { r c Q c + (1 r c )Q c0 } + h i Q i (5.9.7) Q dh : [kwh/] Q s : [kwh/] Q c : [kwh/h] Q c0 : [kwh/h] Q i : [kwh/h] h c : [h/] 1 h/ h i : [h/] 0.5 h/ r c : 0.8 n s : [/] 1 / 5.9.5 5.9.6 W s [l/] W c [l/h] * 38 W dh = n s W s + h c W c (5.9.8) W dh : [l/] W s : [l/] W c : [l/h] n s : [/] 1 / h c : [h/] 1 h/ *38 1 1 1 3 h c 3 h/h i 1.5 h/n s 3 / 37

5.10 5.10.1 5.10.2 θ s [] 90 T g [min] T s [min] (5.10.1) T s = T g 90 25 θ f θ s (5.10.1) T s : [min] T g : 90 [min] θ f : [] θ s : [] 5.10.3 40 15 3 3 1 V m [/] 5 90 75 * 39 390 mm 360 mm 200 mm 180 mm V m [/] [] T c [min/] T c [min/] P c [kwh/] *39 75 1 38

1 2 3 5 5.10.4 Q c = P c (5.10.2) Q c : [kwh/] P c : [kwh/] Q dn = n d Q c (5.10.3) Q dn : [kwh/] Q c : [kwh/] n d : [/] 1 / 5.10.5 39

5.11 5.11.1 70 % θ s [] θ s [] 45 θ s [] 50 θ f [] P t [kwh] η s [%] (5.11.1) η s = CM s(θ f θ s ) 3600 P t 100 (5.11.1) η s : [%] M s : [kg] θ f : [] θ s : [] P t : [kwh] C: 4.19 kj/kg 5.11.2 70 % θ s [] 95 T g [min] t s [s/kg ] (5.11.2) t s = 60 T g M s (95 θ s ) (5.11.2) t s : [s/kg ] T g : 95 [min] M s : [kg] θ s : [] 5.11.3 2 V m [/] 6 * 40 2 V m [/] 70 % P 4 2 2 5 2 *40 40

P 4 0 kw T c [min/] T c [min/] P c [kwh/] 2 [kw] [min] P 1 P 2 P 3 P 4 T 1 6 T 3 20 6 P 1 : [kw] P 2 : [kw] * 41 P 3 : [kw] P 4 : [kw] T 1 : [min] 150 T 3 : [min] 2 5.11.4 Q c = P c (5.11.3) Q c : [kwh/] P c : [kwh/] Q dn = n d Q c (5.11.4) Q dn : [kwh/] Q c : [kwh/] n d : [/] 1 / 5.11.5 *41 P 4 41

5.12 5.12.1 70 % θ s [] 150 θ s [] 45 θ s [] 50 θ f [] P t [kwh] η s [%] (5.12.1) η s = CM s(θ f θ s ) 3600 P t 100 (5.12.1) η s : [%] M s : [kg] θ f : [] θ s : [] P t : [kwh] C: 4.19 kj/kg 5.12.2 70 % θ s [] 150 95 T g [min] t s [s/kg ] (5.12.2) t s = 60 T g M s (95 θ s ) t s : [s/kg ] T g : 95 [min] M s : [kg] θ s : [] (5.12.2) 5.12.3 2 V m [/] 7 * 42 2 V m [/] 70 % θ 4 [] 2 T c [min/] T c [min/] P c [kwh/] *42 42

2 [] [min] 200 200 200 θ 4 T 1 6 T 3 20 7 θ 4 : [] T 1 : [min] 150 T 3 : [min] 2 5.12.4 Q c = P c (5.12.3) Q c : [kwh/] P c : [kwh/] Q dn = n d Q c (5.12.4) Q dn : [kwh/] Q c : [kwh/] n d : [/] 1 / 5.12.5 50 mm 8 8 8 100 mm a b 50 mm 100 mm 43

50 50 b b 50 50 50 50 a a a a 50 50 8 180 1 1 1 I s (5.12.5) I s = 2 j i + j e 2 J i 100 (5.12.5) I s : J i : [] j i : θ a ± 10 [] j e : θ a ± 10 [] θ a : [] * 43 A p [m 2 ] θ a ± 10 θ a [] 10 *43 1 190 190 170 170 44

5.13 5.13.1 JIS C9250 8.2.3(1) 8.2.4 2 p s [kw] 2 1 M s [kg] JIS R3503 1 0.5 l 4 2 kg 0.5 l 4 4 η s [%] (5.13.1) η s = CM s(θ f θ s ) p s T g 100 (5.13.1) η s : [%] M s : [kg] θ f : [] θ s : [] T g : [s] p s : [kw] C: 4.19 kj/kg 5.13.2 θ s [] T g [min] P s [kwh/] T s [min] (5.13.2) 0 min T s = T g ˆθf 25 θ f θ s (5.13.2) T s : [min] T g : [min] 45

ˆθ f : [] θ s : [] θ f : [] 5.13.3 150 g 1 / 5 1 75 * 44 T c [min/] T c [min/] P c [kwh/] 3 6 V c [/h] (5.13.3) V c = 60 T c V c : [/h] T c : [min/] (5.13.3) 5.13.4 Q s 0 kwh/ Q s = P s ˆθf 25 θ f θ s (5.13.4) Q s : [kwh/] P s : [kwh/] ˆθ f : [] θ s : [] θ f : [] Q c = P c 60 T c (5.13.5) Q c : [kwh/h] P c : [kwh/] T c : [min/] *44 75 1 46

Q i 0 kwh/h Q i = P i 60 T i (5.13.6) Q i : [kwh/h] P i : [kwh] T i : [min] Q dh = n s Q s + h c Q c + h i Q i (5.13.7) Q dv = n s Q s + v d T c 60 Q c + (h d v d T c 60 ) Q i (5.13.8) Q dh : [kwh/] Q dv : [kwh/] Q s : [kwh/] Q c : [kwh/h] Q i : [kwh/h] T c : [min/] h c : [h/] 4 h/ * 45 h i : [h/] 6 h/ h d : [h/] 10 h/ v d : [/] 50 / n s : [/] 1 / 5.13.5 * 46 * 47 15 g 14 2 75±5 2 I w 28 I t 6 * 48 9 250 *45 4 h 2.5 h 6 h 1.5 h *46 JIS S2103 *47 JIS C9250 *48 9 1 9 47

* 49 3 27 1 10 3 0.5 I t 3 *49 1 5 48

巻末資料 1 食パン表面の焼き色評価基準 1 6 2 7 3 8 4 9 5 10 49

2 3 1 [g] [%] * 50 [cal/g ] [] 20 g/ 16 72.8 0.83 3 5 mm 8 89.6 0.92 7 5 mm 12 94.6 0.97 7 8 81.7 0.94 7 5 g 20 84.1 0.90 7 5 mm 12 96.2 0.98 7 15 mm 20 86.8 0.91 7 5 mm 8 91.7 0.95 7 0.6 0.48 20 0.4 0.1 0.37 20 4 1.00 20 2 1.00 20 95 1.00 15 206 (A1) w w = m c C p 100 θ m 100 θ w (A1) w w : 1 [g] m c : 1 [g] 3 C p : [cal/g ] 3 θ m : [] 3 θ w : [] 3 (A2) * 51 3 C p = 0.37 + 0.63 x w 100 (A2) C p : [cal/g ] x w : [%] *50 20122012 2 *51 p.2451978 5 URL http://ebw.eng-book.com/index.html 50

26 1 24 AIHO

JIS 15 10

15 10 1 21 2 1 2 21 5 25 3 22 2 20 4 26 1 24 5 103-0011 13 7 6 F TEL 03-5642-1733 FAX 03-5642-1734