Energy & Resource Engineering

Gas Engineering — the design, hydraulic analysis, and optimization of natural gas transmission/distribution networks and LNG/CNG facilities, plus reservoir and production engineering for gas/oil recovery. Distinct from sibling focuses (e.g., power-systems or renewables engineering) by its grounding in gas-specific hydraulic modeling (steady-state/transient, linepack, line-break and blowdown simulation), SCADA-calibrated pipeline monitoring, PHMSA/49 CFR Part 192 and ASME B31.8/B31.8S regulatory compliance, terminal/pipeline equipment (pumps, tanks, metering), and well placement/enhanced-recovery analysis.

Designs, models, and delivers solar photovoltaic (PV) energy systems across their full lifecycle — from site assessment and energy yield simulation through electrical single-line design, NEC Article 690 code compliance, interconnection, and commissioning. Distinct from sibling focuses in wind, geothermal, or grid/transmission engineering: this focus centers on PV-specific technology (panels, inverters, charge controllers, battery storage), solar energy yield optimization, and solar-specific tooling (PVsyst, HelioScope, Aurora Solar, PVcase).

Designs, analyzes, and delivers subsea production and pipeline systems for offshore oil & gas, including flowlines, PLETs/PLEMs, connectors, manifolds, wellhead systems and installation hardware. Distinct from topside/process, naval architecture, or reservoir-focused siblings: this focus centers on subsea hardware design, global/structural and flow-assurance analysis (OrcaFlex, Abaqus, OLGA), code-compliant pipeline integrity (DNV-ST-F101, API 1160, ASME B31.4/B31.8), and offshore installation/commissioning of subsea equipment via ROV-supported operations and FAT/SIT.

Gas Engineering — the design, hydraulic analysis, and optimization of natural gas transmission/distribution networks and LNG/CNG facilities, plus reservoir and production engineering for gas/oil recovery. Distinct from sibling focuses (e.g., power-systems or renewables engineering) by its grounding in gas-specific hydraulic modeling (steady-state/transient, linepack, line-break and blowdown simulation), SCADA-calibrated pipeline monitoring, PHMSA/49 CFR Part 192 and ASME B31.8/B31.8S regulatory compliance, terminal/pipeline equipment (pumps, tanks, metering), and well placement/enhanced-recovery analysis.

Designs, models, and delivers solar photovoltaic (PV) energy systems across their full lifecycle — from site assessment and energy yield simulation through electrical single-line design, NEC Article 690 code compliance, interconnection, and commissioning. Distinct from sibling focuses in wind, geothermal, or grid/transmission engineering: this focus centers on PV-specific technology (panels, inverters, charge controllers, battery storage), solar energy yield optimization, and solar-specific tooling (PVsyst, HelioScope, Aurora Solar, PVcase).

Designs, analyzes, and delivers subsea production and pipeline systems for offshore oil & gas, including flowlines, PLETs/PLEMs, connectors, manifolds, wellhead systems and installation hardware. Distinct from topside/process, naval architecture, or reservoir-focused siblings: this focus centers on subsea hardware design, global/structural and flow-assurance analysis (OrcaFlex, Abaqus, OLGA), code-compliant pipeline integrity (DNV-ST-F101, API 1160, ASME B31.4/B31.8), and offshore installation/commissioning of subsea equipment via ROV-supported operations and FAT/SIT.

Gas Engineering — the design, hydraulic analysis, and optimization of natural gas transmission/distribution networks and LNG/CNG facilities, plus reservoir and production engineering for gas/oil recovery. Distinct from sibling focuses (e.g., power-systems or renewables engineering) by its grounding in gas-specific hydraulic modeling (steady-state/transient, linepack, line-break and blowdown simulation), SCADA-calibrated pipeline monitoring, PHMSA/49 CFR Part 192 and ASME B31.8/B31.8S regulatory compliance, terminal/pipeline equipment (pumps, tanks, metering), and well placement/enhanced-recovery analysis.

Designs, models, and delivers solar photovoltaic (PV) energy systems across their full lifecycle — from site assessment and energy yield simulation through electrical single-line design, NEC Article 690 code compliance, interconnection, and commissioning. Distinct from sibling focuses in wind, geothermal, or grid/transmission engineering: this focus centers on PV-specific technology (panels, inverters, charge controllers, battery storage), solar energy yield optimization, and solar-specific tooling (PVsyst, HelioScope, Aurora Solar, PVcase).

Designs, analyzes, and delivers subsea production and pipeline systems for offshore oil & gas, including flowlines, PLETs/PLEMs, connectors, manifolds, wellhead systems and installation hardware. Distinct from topside/process, naval architecture, or reservoir-focused siblings: this focus centers on subsea hardware design, global/structural and flow-assurance analysis (OrcaFlex, Abaqus, OLGA), code-compliant pipeline integrity (DNV-ST-F101, API 1160, ASME B31.4/B31.8), and offshore installation/commissioning of subsea equipment via ROV-supported operations and FAT/SIT.

Gas Engineering — the design, hydraulic analysis, and optimization of natural gas transmission/distribution networks and LNG/CNG facilities, plus reservoir and production engineering for gas/oil recovery. Distinct from sibling focuses (e.g., power-systems or renewables engineering) by its grounding in gas-specific hydraulic modeling (steady-state/transient, linepack, line-break and blowdown simulation), SCADA-calibrated pipeline monitoring, PHMSA/49 CFR Part 192 and ASME B31.8/B31.8S regulatory compliance, terminal/pipeline equipment (pumps, tanks, metering), and well placement/enhanced-recovery analysis.

Designs, models, and delivers solar photovoltaic (PV) energy systems across their full lifecycle — from site assessment and energy yield simulation through electrical single-line design, NEC Article 690 code compliance, interconnection, and commissioning. Distinct from sibling focuses in wind, geothermal, or grid/transmission engineering: this focus centers on PV-specific technology (panels, inverters, charge controllers, battery storage), solar energy yield optimization, and solar-specific tooling (PVsyst, HelioScope, Aurora Solar, PVcase).

Designs, analyzes, and delivers subsea production and pipeline systems for offshore oil & gas, including flowlines, PLETs/PLEMs, connectors, manifolds, wellhead systems and installation hardware. Distinct from topside/process, naval architecture, or reservoir-focused siblings: this focus centers on subsea hardware design, global/structural and flow-assurance analysis (OrcaFlex, Abaqus, OLGA), code-compliant pipeline integrity (DNV-ST-F101, API 1160, ASME B31.4/B31.8), and offshore installation/commissioning of subsea equipment via ROV-supported operations and FAT/SIT.

Gas Engineering — the design, hydraulic analysis, and optimization of natural gas transmission/distribution networks and LNG/CNG facilities, plus reservoir and production engineering for gas/oil recovery. Distinct from sibling focuses (e.g., power-systems or renewables engineering) by its grounding in gas-specific hydraulic modeling (steady-state/transient, linepack, line-break and blowdown simulation), SCADA-calibrated pipeline monitoring, PHMSA/49 CFR Part 192 and ASME B31.8/B31.8S regulatory compliance, terminal/pipeline equipment (pumps, tanks, metering), and well placement/enhanced-recovery analysis.

Designs, models, and delivers solar photovoltaic (PV) energy systems across their full lifecycle — from site assessment and energy yield simulation through electrical single-line design, NEC Article 690 code compliance, interconnection, and commissioning. Distinct from sibling focuses in wind, geothermal, or grid/transmission engineering: this focus centers on PV-specific technology (panels, inverters, charge controllers, battery storage), solar energy yield optimization, and solar-specific tooling (PVsyst, HelioScope, Aurora Solar, PVcase).

Designs, analyzes, and delivers subsea production and pipeline systems for offshore oil & gas, including flowlines, PLETs/PLEMs, connectors, manifolds, wellhead systems and installation hardware. Distinct from topside/process, naval architecture, or reservoir-focused siblings: this focus centers on subsea hardware design, global/structural and flow-assurance analysis (OrcaFlex, Abaqus, OLGA), code-compliant pipeline integrity (DNV-ST-F101, API 1160, ASME B31.4/B31.8), and offshore installation/commissioning of subsea equipment via ROV-supported operations and FAT/SIT.

Designs, models, and delivers solar photovoltaic (PV) energy systems across their full lifecycle — from site assessment and energy yield simulation through electrical single-line design, NEC Article 690 code compliance, interconnection, and commissioning. Distinct from sibling focuses in wind, geothermal, or grid/transmission engineering: this focus centers on PV-specific technology (panels, inverters, charge controllers, battery storage), solar energy yield optimization, and solar-specific tooling (PVsyst, HelioScope, Aurora Solar, PVcase).

Designs, analyzes, and delivers subsea production and pipeline systems for offshore oil & gas, including flowlines, PLETs/PLEMs, connectors, manifolds, wellhead systems and installation hardware. Distinct from topside/process, naval architecture, or reservoir-focused siblings: this focus centers on subsea hardware design, global/structural and flow-assurance analysis (OrcaFlex, Abaqus, OLGA), code-compliant pipeline integrity (DNV-ST-F101, API 1160, ASME B31.4/B31.8), and offshore installation/commissioning of subsea equipment via ROV-supported operations and FAT/SIT.

Gas Engineering — the design, hydraulic analysis, and optimization of natural gas transmission/distribution networks and LNG/CNG facilities, plus reservoir and production engineering for gas/oil recovery. Distinct from sibling focuses (e.g., power-systems or renewables engineering) by its grounding in gas-specific hydraulic modeling (steady-state/transient, linepack, line-break and blowdown simulation), SCADA-calibrated pipeline monitoring, PHMSA/49 CFR Part 192 and ASME B31.8/B31.8S regulatory compliance, terminal/pipeline equipment (pumps, tanks, metering), and well placement/enhanced-recovery analysis.