Purchased equipment: waste heat recovery in fpso
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waste heat recovery in fpso

Molten salt heaters use molten potassium nitrate and sodium nitrite as heating media. Molten salt heater will heat the powder salt over the melting point until the viscosity of the molten salt allows circulating pump works, after the whole system is under circulating condition, then feed then into the thermal fluid heater for further circulating rising temperature to make it to be recycling used. Normal media working temperature is 400-550℃, top working temperature could reach 600℃.

Technical advantages

Digitized manufacture

  • The laying-off of steel tube adopts CNC 3D laser cutting machine.
  • The manufacture of square coil tube adopts CNC three-dimensional tube bending machine, no forced shaping.
  • The manufacture of serpentuator adopts serpentuator automatic production line, once-forming.

Long life span

  • The optimized radiation heating surface and convective heating surface, the medium flow is more reasonable, without overheat of the carrier and reduce the life;
  • Convection section: optimize convection heating surface and adopt effective fix and structural support to make its working life longer.
  • Set up effective flue gas partition for convection heating surface and cast partition to make it works longer.

Less fuel consumption

  • Use superior refractory brick to build inside and superior perlite in the middle. Keep the furnace temperature under 50℃ to make the minimization of loss.
  • Furnace adopts double close line coil, which makes heating surface sufficient.

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Waste Heat Recovery Systems (WHRS) - MHI-M

Waste Heat Recovery Systems (WHRS) are revolutionary energy-saving power generation system that recover and reuse energy from the main engine's exhaust gas. WHRS optimize thermal efficiency by automatically adjusting the output according to on-board electricity demand.

Study of waste heat recovery potential and optimization o

This paper aims to explore the alternatives for waste heat recovery in a floating production storage and offloading (FPSO) platform to meet the demand for heat (from hot water) and to maximize the electric power generation through the organic Rankine cycle (ORC) with purpose to increase the overall thermal efficiency of the process and reduce CO 2 emissions.


fpso - PART – I Brief of FPPO FPSO INDEX 1. Master equipment: Gas Turbine Generator Waste Heat Recovery Unit 39 1.3.10


requiring waste heat in some form. Our waste heat units are designed with integral bypass reducing the footprint required for heat recovery and consist of proven robust steel ‘H’® design heating surface. Typical markets include marine waste heat including FPSO/FLNG vessels and land based waste heat. Our capacities range

Waste Heat Recovery Systems Market - Global Industr

The waste heat temperature is a key factor determining waste heat recovery feasibility. Waste heat temperatures can vary significantly. In order to enable heat transfer and recovery, it is necessary that the waste heat source temperature is higher than the heat sink temperature. Waste Heat Recovery Systems Market: Market Dynamics and Trends

Multi-objective optimization and exergetic analysis of

Heat recovery from exhaust gas from gas turbine on an FPSO platform is the best alternative for this plant power support . This study presents a novel investigation to quantifying the potential of different sources of waste heat recovery on the FPSO.

Energy Conversion and Management - researchgate.n

Study of waste heat recovery potential and optimization of the power production by an organic Rankine cycle in an FPSO unit Max Mauro L. Reis ⁎ , Waldyr L.R. Gallo

Waste Heat Recovery Systems - ThomasN

Custom manufacturer of waste heat recovery systems including waste heat boiler systems. Fabricated in custom specifications and application requirements. Waste heat boiler systems are designed to reduce energy consumption and used for catalytic cracking, calcining, incineration, hot flue gases

Waste Heat Recovery Unit | Offshore Drilling | Heat Exchang

Understanding CiBAS – Waste Heat Recovery Without Waste Heat Recovery 30MW Useful Energy Gas Turbine 70MW 100MW Exhaust 70MW Lost to the environment 30MW Useful Energy Waste Heat Recovery Unit 40MW The overall useful energy increases by 40MW Lost to the 60% environment 13 .

Saving Energy with Waste Heat Recovery - Heinen & Hopm

The ship’s generators produce a lot of waste heat by means of cooling water and exhaust. This waste heat can be harnessed to heat the AC air using a “waste heat recovery system”. Such a system requires a heat exchanger to recover the waste heat from the generator(s).

Energy Conversion and Management - researchgate.n

Study of waste heat recovery potential and optimization of the power production by an organic Rankine cycle in an FPSO unit Max Mauro L. Reis ⁎ , Waldyr L.R. Gallo