Measurements of Gas Sorption from Seawater and the Influence of Gas Release on Open-Cycle Ocean Thermal Energy Conversion (OC-OTEC) System Performance

doi:10.1016/B978-0-08-033177-5.50291-X

Measurements of Gas Sorption from Seawater and the Influence of Gas Release on Open-Cycle Ocean Thermal Energy Conversion (OC-OTEC) System Performance

NREL

Research output: NLR › Technical Report

Abstract

The technical community has questioned the validity and cost-effectiveness of open cycle ocean thermal energy conversion (OC-OTEC) systems because of the unknown effect of noncondensable gas on heat exchanger performance and the power needed to run vacuum equipment to remove this gas. To date, studies of seawater gas desorption have not been prototypical for system level analysis. This studygives preliminary gas desorption data on a vertical spout, direct contact evaporator and multiple condenser geometries. Results indicate that dissolved gas can be substantially removed before the seawater enters the heat exchange process, reducing the uncertainty and effect of inert gas on heat exchanger performance.

Original language	American English
Number of pages	7
DOIs	https://doi.org/10.1016/B978-0-08-033177-5.50291-X
State	Published - 1985

NLR Publication Number

NREL/TP-252-2738

Keywords

deaeration
gas desorption
NELH
OC-OTEC
open-cycle ocean thermal energy conversion
OTEC system
seawater

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10.1016/B978-0-08-033177-5.50291-X

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title = "Measurements of Gas Sorption from Seawater and the Influence of Gas Release on Open-Cycle Ocean Thermal Energy Conversion (OC-OTEC) System Performance",

abstract = "The technical community has questioned the validity and cost-effectiveness of open cycle ocean thermal energy conversion (OC-OTEC) systems because of the unknown effect of noncondensable gas on heat exchanger performance and the power needed to run vacuum equipment to remove this gas. To date, studies of seawater gas desorption have not been prototypical for system level analysis. This studygives preliminary gas desorption data on a vertical spout, direct contact evaporator and multiple condenser geometries. Results indicate that dissolved gas can be substantially removed before the seawater enters the heat exchange process, reducing the uncertainty and effect of inert gas on heat exchanger performance.",

keywords = "deaeration, gas desorption, NELH, OC-OTEC, open-cycle ocean thermal energy conversion, OTEC system, seawater",

author = "NREL",

year = "1985",

doi = "10.1016/B978-0-08-033177-5.50291-X",

language = "American English",

type = "Other",

}

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T1 - Measurements of Gas Sorption from Seawater and the Influence of Gas Release on Open-Cycle Ocean Thermal Energy Conversion (OC-OTEC) System Performance

AU - NREL, null

PY - 1985

Y1 - 1985

N2 - The technical community has questioned the validity and cost-effectiveness of open cycle ocean thermal energy conversion (OC-OTEC) systems because of the unknown effect of noncondensable gas on heat exchanger performance and the power needed to run vacuum equipment to remove this gas. To date, studies of seawater gas desorption have not been prototypical for system level analysis. This studygives preliminary gas desorption data on a vertical spout, direct contact evaporator and multiple condenser geometries. Results indicate that dissolved gas can be substantially removed before the seawater enters the heat exchange process, reducing the uncertainty and effect of inert gas on heat exchanger performance.

AB - The technical community has questioned the validity and cost-effectiveness of open cycle ocean thermal energy conversion (OC-OTEC) systems because of the unknown effect of noncondensable gas on heat exchanger performance and the power needed to run vacuum equipment to remove this gas. To date, studies of seawater gas desorption have not been prototypical for system level analysis. This studygives preliminary gas desorption data on a vertical spout, direct contact evaporator and multiple condenser geometries. Results indicate that dissolved gas can be substantially removed before the seawater enters the heat exchange process, reducing the uncertainty and effect of inert gas on heat exchanger performance.

KW - deaeration

KW - gas desorption

KW - NELH

KW - OC-OTEC

KW - open-cycle ocean thermal energy conversion

KW - OTEC system

KW - seawater

U2 - 10.1016/B978-0-08-033177-5.50291-X

DO - 10.1016/B978-0-08-033177-5.50291-X

M3 - Technical Report

ER -

Measurements of Gas Sorption from Seawater and the Influence of Gas Release on Open-Cycle Ocean Thermal Energy Conversion (OC-OTEC) System Performance

Abstract

NLR Publication Number

Keywords

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