Rising to the Deepwater Challenges: Opportunities & Solutions to Develop Green Fields of Eastern Offshore, India Bhaskar Konala Manager (Reservoir) ONGC
Outline Overview of east coast Potential of east coast Deepwater definition ONGC’s deepwater portfolio & development opportunities Case studies Technological challenges & solutions Conclusions
Outline Overview of east coast Potential of east coast Deepwater definition ONGC’s deepwater portfolio & development opportunities Case studies Technological challenges & solutions Conclusions
Krishna Godavari Basin Overview of East Coast India Bengal Basin (Category III) Mahanadi Basin (Category II) Krishna Godavari Basin (Category-1) Bay of Bengal Cauvery Basin (Category-1)
Overview of East Coast India is an emerging deepwater region 1 million sq km sedimentary basin (Beyond 200m WD) 54 deepwater blocks offered by GOI (0.52 million Sq Km) Aggressive exploration activities 76 exploratory wells drilled Avg drilling density 0.15 wells/1000 Sq Km One of the least explored regions in the world Major discoveries in Krishna-Godavari Basin Significant unrealized potential
Overview of East Coast NELP Blocks, East Coast India India
Overview of East Coast Major strikes KG-DWN-98/3 (RIL) KG-D6 & MA-6 Krishna Godavari Basin Major strikes KG-DWN-98/3 (RIL) KG-D6 & MA-6 KG-DWN-98/2 (ONGC) DWN-D DWN-E DWN-A DWN-N Annapurna Padmawati Kanakadurga DWN-U DWN-W Ultra Deep-1 KG-OSN-2001/3 (GSPC) Deendayal GSPC Blk Andhra Pradesh -98/3 -98/2
Outline Overview of east coast Potential of east coast Deepwater definition ONGC’s deepwater portfolio & development opportunities Case studies Technological challenges & solutions Conclusions
Production Potential PY-3 Field, Cauvery Offshore India Producing from July 1997 (JV) Water depth ~50-400m Nannilam formation Cretaceous age 4 wells API 50 deg
Production Potential Ravva Field, KG Offshore (Shallow) India Hyderabad Ravva Producing from March 1993 (JV) Water depth 8-15m Ravva formation, Miocene age 21 wells 8 platforms PI : 2000-5000 BBl/d/ksc
Production Potential KG-D6 Gas Field (KG-DWN-98/3 Block), KG Deep Offshore Reliance discovery Major Gas fields: D1 & D3 60 km from shoreline Water depth 600-1700m Godavari Clay formation Plio-Pliestocene age High productivity reservoir 5” & 7” production tubing 18 subsea wells 60 MMm3/d gas 24”X25Km MEG Line Control Riser Platform Umbilical distribution hub Deepwater PLEM Manifold Flow lines umbilical Subsea distribution Assembly Unit Well
MA-D6 Oil Field (KG-DWN-98/3 Block), KG Deep Offshore Production Potential MA-D6 Oil Field (KG-DWN-98/3 Block), KG Deep Offshore Reliance discovery Water depth 600-1700m Cretaceous age Gross thickness : 194m (GCG 170 m, Oil 24 m) Good productivity reservoir 6 subsea wells tied to FPSO 35K Bpd oil
Outline Overview of east coast Potential of east coast Deepwater definition ONGC’s deepwater portfolio & development opportunities Case studies Technological challenges & solutions Conclusions
Deepwater, Variable Definition Different companies… different definitions… >300m Deepwater >1500m Ultra deepwater Definition changing with time & technology >500m Deepwater >2000m Ultra deepwater ONGC >250m Deepwater
Outline Overview of east coast Potential of east coast Deepwater definition ONGC’s deepwater portfolio & development opportunities Case studies Technological challenges & solutions Conclusions
ONGC’s Deepwater Portfolio KG-DWN-98/2 Block(NELP) DWN-D (603m) ONGC 90% PI Cairn 10% PI 8 gas discoveries 3 oil discoveries Water depths 450-2800m Marginal fields Large inter-field distances Significant oil and gas reserves Excellent well productivities Waxy crude ( API 24 deg) Low GOR DWN-N (606m) India DWN-E (664m) Padmawati (464m) DWN-A (706m) Annapurna (1081m) Kanakadurga(500m) G-2 (451m) DWN-U (1265m) DWN-W (1283m) Oil UD-1(2800m) Gas
ONGC’s Deepwater Portfolio IG Block (PEL) India PEL block wholly owned by ONGC Adjacent to 98/2 NELP block Pliocene gas in G-4 Cretaceous oil in G-4-6 Water depths ~ 450m Marginal size discoveries Significant reserves Excellent well productivities G-4 (430m) G-4-6 (450m) 98/2 Block Oil Gas
Development Opportunities Marginal fields with substantial reserves Standalone development becomes sub-economical Cluster development by categorization of fields Grouping based on water depth, fluid type, pressure, vicinity etc. Creating common engineering facilities Hiring the nearby RIL infrastructure PEL Blk 98/3 Block (RIL) 98/2 Block Oil Gas
Development Opportunities Conceptual Development Plan DWN-N Oil Gas Expected gas and oil prod, 40 MMm3/d & 25K bpd respectively
Development Opportunities Ultra-deep field Water depth 2850m ONGC discovery Large free gas field Large reserves Good reservoir productivity Expected gas production ~30 MMm3/d India Conceptual Development Plan KG-DWN-98/2 UD 2X20X75 km UD Fields in similar water depths developed in GoM
Outline Overview of east coast Potential of east coast Deepwater definition ONGC’s deepwater portfolio & development opportunities Case studies Technological challenges & solutions Conclusions
Case Studies Deepwater milestones s
Case Studies BC-10 Block (Campos Basin), Brazil Water depth 1600-2000m Shell 50%, Petrobras 35% & ONGC 15% 3 fields (Ostra, Abalone & Argonauta) tied back to FPSO Espirito Santo Heavy oil (Api 15-24°), low GOR, thin reservoirs 9 Subsea oil wells & 1 GI Subsea oil & gas separation, oil pumped to FPSO thro ESPs Oil production 60000 bopd Reserves 400 Million bbls (64 MMm3) FPSO capacity : 100,000 BOPD 50 MMscf/d gas Heavy oil processing Espirito Santo Electrical umblicals Horizontal wells Artificial lift
Case Studies Independence Hub (GOM), Ultra deep Ten gas fields in eastern ultra deepwater GOM developed Water depth 2400-2800m Operator : Anadarko Reserves : ~70 BCM Mississippi Canyon Blk Independence Hub Gulf of Mexico Q (2420m) (2410m) (2550m) (2400m) (2700m) (2550m) (2750m) (2700m) (2740m) (2700m) Fields tied-back to a deep draft semi-submersible platform (Independence Hub)
Case Studies Independence Hub (GOM) Processing Capacity : 30 MMm3/d gas Condensate : 700 m3/d Water : 500 m3/d Gas production : ~25 MMm3/d No. of wells : 17 Fixed Junction Platform (West Delta 68) Tennessee Independence Trail (24”X 220 km) Processed gas is transported through 24” pipeline (Independence Trail) of 220 Km
Oil export line 130 km & gas export line 170 km (cut & tie) Case Studies Perdido Development (GOM), Ultra deep Water depth 2400-2950m JV partners (Shell, Chevron & BP) Operator : Shell (35% PI) Topside processing : 100,000 bopd, 6MMm/d gas & 80K bwpd Oil Production : 80,000 Bpd 22 subsea wells Subsea gas & liquid separation Subsea pumping to SPAR TX Gulf of Mexico Perdido Perdido, Ultra deepwater SPAR Silver Tip (2812m) Tobago (2926m) Frio Great White (2438m) Oil export line 130 km & gas export line 170 km (cut & tie)
Outline Overview of east coast Potential of east coast Deepwater definition ONGC’s deepwater portfolio & development opportunities Case studies Technological challenges & solutions Conclusions
Technological Challenges Reservoir characterization Dynamic reservoir modeling Offshore facilities and flow assurance Uncertainty and risk analysis Environmental issues, health & Safety
Technological Challenges Reservoir characterization G&G model from high quality seismic imaging Robust fault modeling Petro-physical characterization Cores Analysis Reservoir fluid analysis Extended well testing Well - A Well - A Sweetness attribute Effective porosity model Well - A Well - A Permeability model Net to Gross
Technological Challenges Dynamic Reservoir Modeling Up scaling of static model by MDT Retention of reservoir heterogeneity Reservoir fluid & rock physics modeling Understanding drive mechanism Achieving higher production with less wells Placement & Type of wells (vertical, HW, Multi-lateral, intelligent) Increased oil recovery & enhanced reserve portfolio -
Technological Challenges Offshore Facilities Concept selection Water depth Field size & Life Remoteness of field location Location of infrastructure Number of wells / drilling centres Dry Tree or Wet Tree Drilling or work over capability Production Capacity Total Topsides weight Riser Technologies Constructability and lead time Capex & Opex -
Technological Challenges Offshore Facilities… TLP (148m (Hutton) to 1500m) FPSO (13m (Armada) up to and beyond 3000m) Spar (500m up to and beyond 3000m) Semi-submersible (75m (Argyll) up to and beyond 3000m) Compliant tower (<600m) TLP - FPSO Spar Semi-submersible Subsea to Shore, Ormen Lange (subsea processing) Compliant Tower
Technological Challenges Flow Assurance Prevention and remediation of; Hydrates Paraffin Scales Asphaltene Corrosion Erosion Production of heavy oil with low GOR Mechanical treatment; Pigging Scrapping Chemical solvents Thermal intervention Sand incursion & control measures Hydrate - Paraffin
Technological Challenges Uncertainty & Risk Limited and uncertain data in deepwater Key uncertainties… Seismic & Faults Geological model Hydrocarbon in-place Facies variation & Heterogeneity Reservoir connectivity & extent Contacts Porosity & Permeability Relative permeability Drive mechanism & Aquifer strength Recoverable reserves Concept selection for offshore facilities Flow assurance, etc -
Technological Challenges Environment & Safety Issues Understanding of harsh met-ocean conditions for safe & efficient deepwater development Adequate conservation & protection of marine ecosystem Safe disposal practices of drill cuttings, fluids & chemicals (methanol, hydrate inhibitors etc) Effective emergency response Compliance to safe operating practices & contingency measures Avoiding oil spills Gas hydrates as hazards - Macondo oil leak Macondo Blowout (GoM)
Solutions Wide angle azimuth seismic acquisition for high resolution imaging and illumination Robust reservoir characterization Use of MWD and LWD while drilling (Real time monitoring) for effective geo-steering Pore pressure management Advanced reservoir surveillance Extended well test Interference test Virtual reality Pore Pr Prediction - Live feed from rig Smart gauges
Solutions Robust appraisal plan for delineation Subsea cluster development of marginal fields Intelligent wells / digital field Controlled WI for good sweep Multiple completions Horizontal completions
Solutions Robust concept selection, FEED and detailed design of production system leads to increased system reliability Characterizing multiphase fluid and robust design of subsea flow system to mitigate deepwater flow assurance challenges The uncertainty of the variables that make significant impact on the economic viability of deepwater can be identified & evaluated with experimental design JV for deepwater expertise and risk mitigation Effective contracting methods for timely completion of projects Special dispensation on gas price and incentives by GOI for development of deepwater resources
Conclusions India is an emerging deepwater hub World-class discoveries made in KG Basin ONGC’s deepwater discoveries in east coast has the potential to significantly contribute to the energy demands of India Technology is the key enabler to convert resources into economical reserves Fields in similar water depths are developed elsewhere Critical areas to be considered in deepwater development; Reservoir characterization, dynamic modeling, flow assurance, uncertainty & risk analysis & environment & safety issues
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