Thiel Christian 24.09.2014 CIMAC NMA Norge 2014 ABB Turbocharging
Agenda ABB Turbocharging in Norway A200-L for two stroke engines Engine tunings high pressure tuning method Retrofit and upgrades 4 stroke October 2, 2014 Slide 2
ABB Turbocharging in Norway ABB NO-SE-DK merged 2013 ABB Scandinavia Main station Oslo 39 employees Service engineers Service coordinators Logistics Reconditioning Sales/ New building ABB service stations Tromsø Operative end 2014 ABB service stations and sales office October 2, 2014 Slide 3
A200-L The next 2-stroke generation A200-L the dedicated turbocharger for 2 stroke engines / Turbocharging October 2, 2014 Slide 4
A200-L The next 2-stroke generation 1999 New generation TPL-B 2009 New generation A100-L 2013 New generation A200-L 1995 2000 2005 2010 2015 2011 Upgrade A100-L37 TPL-B A100-L new A200-L new modified new / Turbocharging October 2, 2014 Slide 5
The 6 key effects of A200-L UP with pressure ratio UP with volume flow UP with efficiency DOWN with first cost DOWN with service cost DOWN with fuel consumption October 2, 2014 Slide 6
The way we made A200-L A100-L35 The original 2009 A100-L37-8% Introduced 2011 A200-L -14% Introduced 2013 October 2, 2014 Slide 7
How we made the A200-L new new modified new October 2, 2014 Slide 8
Illustrations for constant output Same output A180-L35 A275-L -20% product cost -25% maintenance costs October 2, 2014 Slide 9
A200-L service concept Continuous high performance from dry-dock to dry-dock One intermediate visual inspection of key components Smart and compact design for easy maintenance Optimized features Integrated lubrication oil tank Integrated bearing design Improved labyrinths for minimum air blow-by and oil blow-by Improved compressor and turbine cleaning devices October 2, 2014 Slide 10
A200-L referances Large number of turbocharger 1 400 A100-L units 400 A200-L units Ask for A200-L October 2, 2014 Slide 11
HPT for MAN engines Tunings for 2- stroke engines New vessels optimized for real operating conditions Slow steaming De-ratating Engine tunigns October 2, 2014 Slide 12
HPT for MAN engines Why engine tuning and what s that? Engine optimizing for lowest fuel consumption at a given intended load profile of the vessel. Optimized for high-load (90-100%) Optimized for part-load (70-90%) Optimized for low-load (0-70%) Engine adjustments with shims, timing, coolers, etc., Optimized ABB turbocharger specifications October 2, 2014 Slide 13
HPT for MAN engines 166,0 164,0 SFOC Engine 6G60ME-C9.2 MCR (kw) 12 400 rpm 92 SFOC [g/kwh] 162,0 160,0 158,0 156,0 154,0 152,0-5 g/kwh - 2,2 g/kwh High Load Tuning Part Load HPT Low Load HPT 150,0 40% 45% 50% 55% 60% 65% 70% 75% 80% 85% 90% 95% 100% High Load Tuning 164,6 163,2 161,8 160,5 159,3 158,2 157,4 157,6 157,9 158,5 159,2 160,2 161,4 Part Load HPT 161,6 160,2 158,8 157,5 156,3 155,2 155,2 156,1 156,9 158,7 160,7 161,7 162,9 Low Load HPT 159,6 158,2 156,8 155,5 154,3 153,2 154,7 157,1 157,9 159,2 160,7 161,7 162,9 ENGINE LOAD October 2, 2014 Slide 14
HPT for MAN engines How to tune an engine for part/low load? exhaust gas bypass (EGB) engine control tuning (ECT) for electronic engines only variable turbine geometry (VT) High Pressure Tuning (HPT) October 2, 2014 Slide 15
HPT for MAN engines The concept: Increased scavenging air pressure at SMCR (+0.4 0.5 bar) (two-stroke Miller timing) Results in higher scavenging air pressure at part and low-load, equal to EGB/VT tuning Scavenging air pressure October 2, 2014 Slide 16
HPT for MAN engines 4,75 4,5 4,25 Scav. air pressure bara 4 3,75 3,5 3,25 3 Δ Pscav. = + 0.5 ABB HPT MDT-L High Load MDT-L Low load VT 2,75 2,5 2,25 40% 50% 60% 70% 80% 90% 100% 110% Engine Load Similar pressure ratio as with VT tuning October 2, 2014 Slide 17
Standard Cycle HPT Cycle Exhaust Exhaust Log p Log p p max p max p C p C PO EVO PO BDC BDC EVO Scavenge Pressure Scavenge Pressure TDC EVC Log V TDC EVC Log V Intake Intake September 20, 2013 Slide 5
HPT for MAN engines Benefits of HPT: Equal or better SFOC compared to VT or EGB VTG/ EGB not needed No investment No maintenance No breakdown Combined with all A200-L High charge pressure High volume flow Dual rating possible (part load + low load) Available on MAN electronic engines (ME) and exhaust valve control 29 engines delivered with HPT October 2, 2014 Slide 19
Upgrades on 4 stroke engines Upgrades and Retrofit October 2, 2014 Slide 20
Upgrade projects: Power station in Kohinoor, Pakistan VTR564 TPL76-C 8 x Wärtsilä 18V46A with 2 x VTR564-P Upgrade to TPL76-C34 with higher efficiency No changes on the engine Improvement Fuel consumption - 2.0 % Turbo efficiency + 5.4 %-Pkt. Speed margin + 6.0 % Turbine inlet temperature - 18.0 C
Upgrade projects: Cruise liner Freedom of the Seas First marine application! 6 x Wärtsilä 12V46 with 2 x TPL73-A30 Upgrade to newer turbocharger generation compressor stage New recertification issued by DNV
Upgrade projects: Cruise liner Freedom of the Seas CV30 à CV32 Improvement Fuel consumption - 3 g/kwh (-1,65%) Turbo efficiency + 3.5 %-Pkt. Speed margin +7,2 % Turbine inlet temperature -24 C Fuel savings > 0,65 MUSD / year
Retrofit projects: Power plant of GENOR in Guatemala NA457 TPL71-C 4 x Wärtsilä 18V38A-2 with 2 x NA457 Retrofit from Napier to ABB TPL71-C; introduction of Miller timing Fuel savings of 2% could be guaranteed (actual: 3.5%) Payback time < 1.5 years Fuel savings > 1.4 MUSD / year Improvement Fuel consumption - 3.5% Turbo efficiency (ca. + 3 %) Speed margin + 6 % Turbine inlet temperature - 14 C NOx reduction - 13 %
Updrade: Bergen engines Bergen B32:40L9P with 4 500 kw Equipped with TPL69-A IMO I Upgraded with TPL67-C and new camshaft Miller cycle + IMO II Higher engine efficiency and lower fuel consumption Upgrade in combination with replacement of main components October 2, 2014 Slide 25
Questions? October 2, 2014 Slide 26