0.II.1 Thermodynamica: oefeningen - oplossingen

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1 0.II.1 Thermodynamica: oefeningen - oplossingen Olivier Rosseel 15 november 2004 Samenvatting Hier vind je de opgeloste oefeningen thermodynamica van hoofdstuk II. Breng mij op de hoogte van eventuele fouten. 1 Oefening 1 p compr = 0, 1 bar P a = 750 mmhg = P a T = cte V 2 = V 1 4 p manometer na compressieslag? p 1.V 1 = p 2.V 2 p 2 = p 1.V 1 V 2 = 4.p 1 p 1 = 0, , 1 = 0, 90 bar p 2 = 3, 60 bar p manometer = 3, 60 0, = 2, 6 bar 2 Oefening 2 m = 1 kg ρ = 1, 55 kg/m 3 T = cte p 1 = 3.p 2 1

2 V 2? p 1.V 1 = p 2.V 2 V 1 = m ρ = 0, 645 m3 V 2 = p 1.V 1 p 2 = 3.V 1 = 1, 94 m 3 3 Oefening 3 lucht V = 5000 m 3 /h Θ : 20 o C 250 o C v = cte p = cte % toename in volume % toename zijde kanaal onderstel lucht = ideaal gas V 1 = T 1 V 2 T 2 V 2 = T 2 V 2 V 1 = T 2 T 1 = 0, 785 = 78, 5 % V 1 T 1 V 1 T 1 V 1 = A 1. v V 2 = A 2. v V 1 V 2 = A 1 A 2 = a2 1 a = 1, a 2 = a 1 a 2 a 1 = a 2 1 = 0, 34 = 34 % a 1 a 1 4 Oefening 4 A = 25 m 2 2

3 150 kg kolen/m 2 per uur V rookgassen = 15 m 3 n per kg kolen T 2 = 150 o C = 423, 16 K p 2 = 700 mmhg = P a v gassen als A doorstroming = 5, 2 m 2? p 1.V 1 p 2.V 2 = T 1 T 2 V 1 = = m 3 n p 1 = P a T 1 = 273, 16 K V 2 = p 1.V 1.T 2 = 94607, 2 m 3 per uur p 2.T 1 V = A. v v = 94607, 2 = 5, 05 m/s , 2 5 Oefening 5 ρ = 1, 5 kg/m 3 T = 273, 16 K p = 1 bar R? p? bij m = 2, 73 kg; V = 20 dm 3 ; T = 300, 16 K p.v = m.r.t R = p.v m.t = p ρ.t = 244 J/kgK p.v = m.r.t p = m.r.t V = 100 bar 6 Oefening 6 V 1 = 5 m 3 Θ : 0 o C 82 o C 3

4 p = cte % dat overblijft? V 1 V 2 = T 1 T 2 = 0, 769 = 76, 9 % 7 Oefening 7 V = 1000 m 3 n/h Θ : 100 o C 1000 o C c p100 = 1, 007 kj/kgk c p1000 = 1, 092 kj/kgk R lucht = 287 J/kgK vereist vermogen P? p 0.V = m.r.t 0 m = p 0.V = = 1292 kg R.T , 16 Q p = m.c p. T = , , = 1, J 2 P = Q p 1, = = 339 kw t Oefening 8 V 1 = 50 l T 1 = 300, 16 K c p = 1, 0 kj/kgk ρ = 1, 5 kg/m 3 V 2 = 1 2 V 1 p = cte afgevoerde warmte Q p? 4

5 ρ eind? V 1 = T 1 T 2 = T 1.V 2 = 150, 08 K V 2 T 2 V 1 m = ρ.v 1 = 0, 075 kg Q p = 0, 075.1, (300, , 08) = 11, 26 kj ρ eind = m V 2 = 2m V 1 = 3 kg/m 3 9 Oefening 9 V 1 = m 3 T 1 = 290, 16 K p 1 = P a R = 260 J/kgK m? T 2 voor p 2 = P a? c) p bij m 2, 17o C/0 o C en ρ? c) p 1.V 1 = m.r.t 1 m = p 1.V 1 R.T 1 = 9, 94 kg p 1 p 2 = T 1 T 2 T 2 = T 1.p 2 p 1 p 17 o C = m.r.( , 16) V 1 = 348, 19 K = 75 bar m.r.( , 16) p 0 o C = = 70, 6 bar V 1 ρ = m = 99, 4 kg/m3 2.V 10 Oefening 10 V 1 = 10 m 3 5

6 p 1 = 9 bar T 1 = 405, 16 K R = 287 J/kgK T 2 bij 2V 1 en 3p 1? hoeveelheid m 3 n? c) ρ? d) T bij ρ = 6, 15 kg/m 3 en p = 9 bar? c) p 2.V 2 = m.r.t 2 p 1.V 1 = m.r.t 1 m = p 1.V 1 R.T 1 V 2 = 2.V 1 p 2 = 3.p 1 3.p 1.2.V 1 = p 1.V 1 R.T 1.R.T 2 T 2 = 6.T 1 = 2431 K p 0 = P a T 0 = 273, 16 K p 0.V = m.r.t 0 p 2.V 2 = m.r.t 2 m.r = p 2.V 2 T 2 = 6.p 1.V 1 T 2 V = m.r.t 0 p 0 = 6.p 1.V 1 T 2. T 0 p 0 = 60 m 3 n ρ = m V 1 = p 1 R.T 1 = 7, 74 kg/m 3 d) T = p.v m.r = p ρ.r = , = 510 K 11 Oefening 11 T 1 = 293, 16 K p = 500 mmw K = 4903 P a p a = 750 mmhg = 1 bar 6

7 S = kj/m 3 n S in J/m 3? p 1.V 1 = m.r.t 1 p 0.V = m.r.t 0 p 0.V = T 0 V = T 0. p 1 = 273, 16.( ) = 0, 96 p 1.V 1 T 1 V 1 T 1 p 0 293, S = S. V V 1 = kj/m 3 12 Oefening 12 p = cte A = cte v in = 5 m/s Θ : 25 o C 250 o C v uit? V 1 = A. v in V2 = A. v uit V 1 V 2 = A. v in A. v uit en V 1 V 2 = T 1 T 2 v uit = v in.t 2 T 1 = 8, 77 m/s 13 Oefening 13 p a = 740 mmhg = P a T 1 = 295, 16 K S = kj/m 3 als p = 50 mmw K = 490 P a S n per m 3 n? 7

8 S n = S. V 1 V = S.T 1.p 0 295, = T 0.p 1 273, 16.( ) = kj/m3 n 14 Oefening 14 D = 23 m T 1 = 299, 16 K m = 6400 kg h = 23 m h = 30, 4 m R = 650, 4 J/kgK p a = 743 mmhg = P a m gas dat onttrokken kan worden? t? opname van 300 m 3 n/h p 1.V 1 = m.r.t 1 m = p 1.V 1 R.T 1 V 1 = Π. D2 4.(h h) = 3075 m 3 p 1 = 4.m.g Π.D + p 2 a = P a m = 1568 kg p 0.V = m.r.t 0 m = p 0.V = R.T 0 650, 4.273, 16 t = 1568 = 9, 17 h 171 = 171 kg/h 15 Oefening 15 η = 0, 80 S = 40 MJ/kg m olie = 200 kg/h 8

9 V rook = 15 m 3 n/kg olie T rook = 433, 16 K p rook = 1 bar R = 280 J/kgK m rook in kg/h? ρ rook bij 0 o C en 760 mmhg en direct na de ketel? c) A rookkanaal bij v = 4 m/s? d) stoomproductie/h met Q = 3000 kj/kg? c) V rook = = 3000 m 3 n p 0.V rook = m.r.t 0 m = 3974, 3 kg/h p rook.v rook = m.r.t rook ρ = m rook = p rook = 1, 325 kg/m 3 bij 0 o C en 760 mmhg V rook R.T rook ρ = 0, 825 kg/m 3 direct na de ketel d) V = 3974, 3 0, 825 = 4820 m3 V = A. v A = V v = = 0, 33 m2 stoomproductie = S.m olie.η Q = , 80 3 = 2133, 3 kg 16 Oefening 16 P = 500 kw V gas = 650 m 3 /h p gas = 1 bar p gas = 0, 85 bar T gas = 303, 16 K T gas = 320, 16 K S = kj/m 3 n η = cte S = 30 MJ/m 3 n brandstofverbruik? 9

10 gasverbruik in m 3 n? c) η? c) p gas.v gas = m.r.t gas m.r = p gas.v gas T gas p 0.V = m.r.t 0 V = m.r.t 0 = p gas.v gas. T 0 = 578 m 3 p 0 T gas p n/h 0 Q = S.V = = 7514 MJ/h P = Q t = = 2087 kw 3600 η = P = 500 = 0, 24 P 2087 V = Q = 7514 S 30 = 250 m3 n/h m.r = p 0.V V gas = p 0.V. T gas T 0 T 0 p gas = 350 m 3 n/h Q = V.S = = 7500 MJ/h gasverbruik = 250 Q.0, 24 = 0, 139 m3 n/mj η = 24% 17 Oefening 17 V He = 250 m 3 T He = 293, 16 K p He = 750 mmhg = 1 bar T He = 250, 16 K p He = 500 mmhg = P a ρ He = 0, 128 kg/m 3 V He? R? p He.V He = m.r.t He p He.V He = m.r.t He 10

11 R = p He.V He m.t He = p He ρ He.T He ρ He = p He R.T He = 1, 280 kg/m 3 V He = ρ He ρ He = 54, 7 m 3 = 2082 J/kgK 18 Oefening 18 V t = m 3 V 1 = m 3 V 2 = m 3 V 3 = m 3 T = cte p t? p 1 = 8 bar p 2 = 12 bar p 3 = 10 bar p t = = 17, 2 bar Oefening 19 V 1 = m 3 V 2 = m 3 p 1 = 50 bar p 2 = 30 bar p eind? p eind = = 38 bar Oefening 20 V b = m 3 R l = 287 J/kgK V l = m 3 R k = 189 J/kgK P l = P a 11

12 T l = 330, 16 K = T k V k = m 3 p k = P a verhouding partiële drukken? massa- en volumeverhouding? c) gasconstante van het mengsel R m? d) partile drukken bij 0 o C? p l = = P a p k = = P a c) d) p l p k = 0, 429 p l.v b = m l.r l.t l m l = 3, kg p k.v b = m k.r k.t k m k = 11, kg m l m k = 0, 282 p l = V l V l = 1, m 3 p m V b p k = V k V k = 3, m 3 p m V b V l V k = 0, 429 met p m = = P a R m = 3, 17 11, = 211 J/kgK 14, 4 14, 4 T = 273, 16 K p l.v b = m l.r l.t p l = 49, P a p k.v b = m k.r k.t p k = 115, P a 21 Oefening 21 24% O 2 12

13 76% N 2 R O2 = 260 J/kgK R N2 = 297 J/kgK p l = P a R l? partiële drukken? c) volumeverhoudingen? R l = 0, , = 288 J/kgK p l = V O 2 V l.p 02 + V N 2 V l.p N2 p l.v l = m l.r l.t V l = m l.r l.t p l p 02.V 02 = m 02.R O2.T p 0 2 = V O 2.p 02 = m 0 2.R O2.T V l m l.r l.t want m O2 = 0, 76.m l.p l = 0, 24.R O 2.p l R m = P a p N2.V N2 = m N2.R N2.T p N 2 = V N 2.p N2 = m N 2.R N2.T V l m l.r l.t want m N2 = 0, 76.m l.p l = 0, 76.R N 2.p l R m = P a c) V 0 2 V N 2 = p 0 2 p N 2 = 0, Oefening 22 V gas = 1 m 3 n R g = 520 J/kgK V l = 5 m 3 n R l = 287 J/kgK T = 293, 16 K p = P a R m, massa s en ρ? 13

14 p 0.V gas = m gas.r g.t 0 m gas = 0, 713 kg p 0.V l = m l.r l.t 0 m l = 6, 462 kg R m = 0, 713 6, = 310 J/kgK 7, 176 7, 176 ρ m = m m V m = p m R m.t m = 1, 114 kg/m 3 23 Oefening 23 m g1 = 10 kg m g2 = 5 kg T g1 = T g2 R g1 = 297 J/kgK R g2 = 519 J/kgK volumeverhouding? R m? c) ρ m bij 0 o C en 1 bar? d) partiële drukken bij p m = 2 bar? p g1 p g2 = V g1 V g2 = m g1.r g1 m g2.r g2 = 1, 145 c) R m = = 371 J/kgK 15 ρ m = m m V m = p m R m.t = 0, 99 kg/m3 d) p m = 1, 145.p g2 + p g2 p g2 = 0, 93 bar p g1 = 1, 145.p g2 = 1, 07 bar 24 Oefening 24 V = 5 m 3 14

15 R l = 287 J/kgK p l = 2 bar θ = 20 o C R prop = 189 J/kgK p m = 10 bar S prop = 45 MJ/kg partiële drukken? massa- en volumeverhouding? c) gasconstante van het mengsel R m? d) S m per m 3 n? e) ρ prop? c) d) e) p l = 2 bar p prop = 8 bar p l = V l V l = 5.2 p m V m 10 = 1 m3 p prop = V prop V prop = 4 m 3 p m V m V l = 0, 25 V prop p l.v m = m l.r l.t m l = = 11, 89 kg 8, p prop.v m = m prop.r prop.t m prop = = 72, 23 kg m l m prop = 0, 165 R m = 8, , 89 72, = 202, 9 J/kgK 84, 12 84, 12 p n.v n = m tot.r m.t n p m.v m m tot.r m.t V n = 45, 98 m 3 n 1 S tot = 45.72, , 98 = 70, 7 MJ/m3 n p a.v prop = m prop.r prop.t n ρ prop = m prop V prop = p a = R prop.t n , 16 = 1, 964 kg/m3 15

16 25 Oefening 25 V l = m 3 V CO2 = m 3 p l = 5 bar p CO2 = 0, 5 bar T = 273, 16 K M l = 28, 96 g/mol partieeldrukken? massaconcentraties? p k = 6 9.p l p CO 2 p l = 6 9.p l = 3, 333 bar p CO 2 = 3 9.p CO 2 = 0, 166 bar p l.v = n.r.t = m l M l.r.t m l = 38, kg p CO 2.V = n.r.t = m CO 2 M CO2.R.T m CO2 = 3, kg m l m l + m CO2 = 0, 927 = 92, 7% m CO2 m l + m CO2 = 0, 073 = 7, 3% 26 Oefening 26 V 1 = 1 m 3 p 1 = 1, 5 bar T 1 = 313, 16 K V 2 = 2 m 3 p 2 = 1, 3 bar T 2 = 333, 16 K V 3 = 3 m 3 T 3 = 292, 16 K p 3? 16

17 p 1.V 1 = m 1.R O2.T 1 m 1 = p 1.V 1 R O2.T 1 p 2.V 2 = m 2.R O2.T 2 m 1 = p 2.V 2 R O2.T 2 p 3.V 3 = m 3.R O2.T 3 m 3 = m 1 + m 2 p 3 = m 3.R O2.T 3 V 3 = p 1.V 1 R O2.T 1. R O 2.T 3 V 3 + p 2.V 2 R O2.T 2. R O 2.T 3 V 3 = 1, 23 bar 27 Oefening 27 51% H 2 8% CO 32% CH 4 4% C 2 H 4 2% CO 2 3% N 2 R l = 287 kj/kgk p l = 2 bar T = 313, 16 K D = m h = m V gas = 4.V l m mengsel? V = Π.D2.h = 0, 15 m3 4 V = V g + V l = 4.V l + V l = 5.V l V l = 0, 03 m 3 V g = 0, 12 m 3 p l.v l = n.r.t p g.v g = n.r.t p l.v l = p g.v g 17

18 p l = 4.p g p g = 0, 5 bar p = V l V.p l + V g V.p g = 1 5.p l p g = 0, 8 bar p.v = n.r.t = m m M m.r.t m m = 0, 19 kg waarbij M m = M l + M g = (28, , 25) g/mol want M g = 0, , , 08.(12, , 999) + 0, 32.(12, , 01) + 0, 04.(2.12, , 01) + 0, 02.(12, , 999) + 0, , 01 = 11, 25 g/mol 18