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Major parameters that play a role in the screening of gas utilization options include:
Major parameters that play a role in the screening of gas utilization options include:
* Gas-field size
* Product market size
* World-scale plant size
* Maturity of technology
* Capital cost
* Product prices


==Facility and technology evaluation==
*Gas-field size
'''Table 1''' shows the gas-field-size requirements and typical world-scale plant sizes for some of the gas utilization options. The gas-field-size requirements are based on a single-train plant with a 20-year life. It is possible to have multiple-train plants, which will require larger-sized gas fields; however, under these circumstances, the impact of the additional production on the product market should be evaluated. A combination of different gas monetization options also can be used depending on the available gas reserves.  
*Product market size
*World-scale plant size
*Maturity of technology
*Capital cost
*Product prices
 
== Facility and technology evaluation ==
 
'''Table 1''' shows the gas-field-size requirements and typical world-scale plant sizes for some of the gas utilization options. The gas-field-size requirements are based on a single-train plant with a 20-year life. It is possible to have multiple-train plants, which will require larger-sized gas fields; however, under these circumstances, the impact of the additional production on the product market should be evaluated. A combination of different gas monetization options also can be used depending on the available gas reserves.


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==Market and resource evaluation==
== Market and resource evaluation ==
'''Table 2''' compares the total market size for the different products for year 2001. The GTL market is large, while the ammonia and methanol markets are relatively small. '''Fig. 1''' depicts the impact of an additional 1,000 MMscf/D of gas on the product market. The ammonia and methanol markets are relatively small and the incremental production from an additional 1 Bscf of gas on the market has a significant impact on the total market for the product. For LNG, even though the impact on the total market is significant in terms of the currently traded LNG, it is not significant in terms of the total natural gas consumption worldwide. For GTL, the impact of additional capacity on the total market is insignificant.  
 
'''Table 2''' compares the total market size for the different products for year 2001. The GTL market is large, while the ammonia and methanol markets are relatively small. '''Fig. 1''' depicts the impact of an additional 1,000 MMscf/D of gas on the product market. The ammonia and methanol markets are relatively small and the incremental production from an additional 1 Bscf of gas on the market has a significant impact on the total market for the product. For LNG, even though the impact on the total market is significant in terms of the currently traded LNG, it is not significant in terms of the total natural gas consumption worldwide. For GTL, the impact of additional capacity on the total market is insignificant.


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==Economic evaluation==
== Economic evaluation ==
Product pricing also plays a key role in the economic evaluations of the different options. '''Fig. 2''' shows revenue per unit feed gas quantity for the different products at a given point in time. The revenue for ammonia and methanol per unit volume of feed gas processed is higher compared with a GTL or a LNG facility. However, as '''Fig. 3''' shows, the relative capital cost (on a unit feed basis) for these facilities is also higher compared with a LNG or GTL plant. No one parameter, in isolation, should be considered while evaluating the gas monetization options. A multidimensional evaluation of the relevant parameters is required to develop the optimum gas utilization strategy.  
 
Product pricing also plays a key role in the economic evaluations of the different options. '''Fig. 2''' shows revenue per unit feed gas quantity for the different products at a given point in time. The revenue for ammonia and methanol per unit volume of feed gas processed is higher compared with a GTL or a LNG facility. However, as '''Fig. 3''' shows, the relative capital cost (on a unit feed basis) for these facilities is also higher compared with a LNG or GTL plant. No one parameter, in isolation, should be considered while evaluating the gas monetization options. A multidimensional evaluation of the relevant parameters is required to develop the optimum gas utilization strategy.
 
== Utilization options ==


==Utilization options==
Some common gas utilization options are listed below:
Some common gas utilization options are listed below:


* [[Gas pipelines|Piplines]]
*[[Gas_pipelines|Piplines]]
* [[Compressed natural gas (CNG)]]
*[[Compressed_natural_gas_(CNG)|Compressed natural gas (CNG)]]
* [[Liquified natural gas (LNG)]]
*[[Liquified_natural_gas_(LNG)|Liquified natural gas (LNG)]]
* [[Gas as fertilizer feedstock|Gas to ammonia and urea]]
*[[Gas_as_fertilizer_feedstock|Gas to ammonia and urea]]
* [[Gas to liquids (GTL)|Gas to liquids - Fischer Tropsch route]]
*[[Gas_to_liquids_(GTL)|Gas to liquids - Fischer Tropsch route]]
* [[Gas to methanol]]
*[[Gas_to_methanol|Gas to methanol]]
* [[Gas to power]]
*[[Gas_to_power|Gas to power]]


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==Nomenclature==
== Nomenclature ==
{|border="0" cellspacing="4" width="40%"
 
|CII
{| border="0" cellspacing="4" width="40%"
|-
| CII
| —
| —
|integral incorporated cascade process  
| integral incorporated cascade process
|-
|-
|CNG
| CNG
| —
| —
|compressed natural gas  
| compressed natural gas
|-
|-
|CPL
| CPL
| —
| —
|coiled pipeline  
| coiled pipeline
|-
|-
|DME
| DME
| —
| —
|dimethylether  
| dimethylether
|-
|-
|FT
| FT
| —
| —
|Fisher-Tropsch  
| Fisher-Tropsch
|-
|-
|GTG
| GTG
| —
| —
|gas to gas  
| gas to gas
|-
|-
|GTL
| GTL
| —
| —
|gas to liquids  
| gas to liquids
|-
|-
|GTM
| GTM
| —
| —
|gas transport module  
| gas transport module
|-
|-
|GTP
| GTP
| —
| —
|gas to power  
| gas to power
|-
|-
|GTS
| GTS
| —
| —
|gas to solids  
| gas to solids
|-
|-
|GTW
| GTW
| —
| —
|gas to wire  
| gas to wire
|-
|-
|LNG
| LNG
| —
| —
|liquefied natural gas  
| liquefied natural gas
|-
|-
|LPG
| LPG
| —
| —
|liquefied petroleum gas  
| liquefied petroleum gas
|-
|-
|MMscf/D
| MMscf/D
| —
| —
|million standard cubic foot per day  
| million standard cubic foot per day
|-
|-
|mtpa
| mtpa
| —
| —
|million tons per annum  
| million tons per annum
|-
|-
|mTPD
| mTPD
| —
| —
|metric tons per day  
| metric tons per day
|-
|-
|NGH
| NGH
| —
| —
|natural gas hydrates  
| natural gas hydrates
|-
|-
|NGL
| NGL
| —
| —
|natural gas liquid  
| natural gas liquid
|-
|-
|ORV
| ORV
| —
| —
|open rack vaporizer  
| open rack vaporizer
|-
|-
|PNG
| PNG
| —
| —
|pressurized natural gas  
| pressurized natural gas
|-
|-
|SMDS
| SMDS
| —
| —
|Shell middle-distillate synthesis  
| Shell middle-distillate synthesis
|-
|-
|VOTRANS
| VOTRANS
| —
| —
|volume-optimized transport and storage  
| volume-optimized transport and storage
|}
|}


==References==
== References ==
 
Use this section for citation of items referenced in the text to show your sources. [The sources should be available to the reader, i.e., not an internal company document.]
Use this section for citation of items referenced in the text to show your sources. [The sources should be available to the reader, i.e., not an internal company document.]


==Noteworthy papers in OnePetro==
== Noteworthy papers in OnePetro ==
 
Use this section to list papers in OnePetro that a reader who wants to learn more should definitely read
Use this section to list papers in OnePetro that a reader who wants to learn more should definitely read


==External links==
== External links ==
 
Use this section to provide links to relevant material on websites other than PetroWiki and OnePetro
Use this section to provide links to relevant material on websites other than PetroWiki and OnePetro


==See also==
== See also ==
[[Monetizing stranded gas]]
 
[[Monetizing_stranded_gas|Monetizing stranded gas]]


[[Stranded gas]]
[[Stranded_gas|Stranded gas]]


[[Transporting stranded gas as hydrates]]
[[Transporting_stranded_gas_as_hydrates|Transporting stranded gas as hydrates]]


[[PEH:Monetizing Stranded Gas]]
[[PEH:Monetizing_Stranded_Gas]]
[[Category:5.7.5 Economic evaluations]]

Revision as of 17:22, 10 June 2015

Major parameters that play a role in the screening of gas utilization options include:

  • Gas-field size
  • Product market size
  • World-scale plant size
  • Maturity of technology
  • Capital cost
  • Product prices

Facility and technology evaluation

Table 1 shows the gas-field-size requirements and typical world-scale plant sizes for some of the gas utilization options. The gas-field-size requirements are based on a single-train plant with a 20-year life. It is possible to have multiple-train plants, which will require larger-sized gas fields; however, under these circumstances, the impact of the additional production on the product market should be evaluated. A combination of different gas monetization options also can be used depending on the available gas reserves.

  • Table 1—Field-Size Requirements for Various Gas Monetization Options

    Table 1—Field-Size Requirements for Various Gas Monetization Options

Market and resource evaluation

Table 2 compares the total market size for the different products for year 2001. The GTL market is large, while the ammonia and methanol markets are relatively small. Fig. 1 depicts the impact of an additional 1,000 MMscf/D of gas on the product market. The ammonia and methanol markets are relatively small and the incremental production from an additional 1 Bscf of gas on the market has a significant impact on the total market for the product. For LNG, even though the impact on the total market is significant in terms of the currently traded LNG, it is not significant in terms of the total natural gas consumption worldwide. For GTL, the impact of additional capacity on the total market is insignificant.

  • Table 2—Market Size for Year 2001

    Table 2—Market Size for Year 2001

  • Fig. 1—Impact of 1,000 MMscf/D additional gas on product markets.

    Fig. 1—Impact of 1,000 MMscf/D additional gas on product markets.

Economic evaluation

Product pricing also plays a key role in the economic evaluations of the different options. Fig. 2 shows revenue per unit feed gas quantity for the different products at a given point in time. The revenue for ammonia and methanol per unit volume of feed gas processed is higher compared with a GTL or a LNG facility. However, as Fig. 3 shows, the relative capital cost (on a unit feed basis) for these facilities is also higher compared with a LNG or GTL plant. No one parameter, in isolation, should be considered while evaluating the gas monetization options. A multidimensional evaluation of the relevant parameters is required to develop the optimum gas utilization strategy.

Utilization options

Some common gas utilization options are listed below:

  • Fig. 2—Typical product revenue (U.S. $/MMscf feed gas) for different gas utilization options.

    Fig. 2—Typical product revenue (U.S. $/MMscf feed gas) for different gas utilization options.

  • Fig. 3—Relative capital costs of different gas utilization options.

    Fig. 3—Relative capital costs of different gas utilization options.

Nomenclature

CII integral incorporated cascade process
CNG compressed natural gas
CPL coiled pipeline
DME dimethylether
FT Fisher-Tropsch
GTG gas to gas
GTL gas to liquids
GTM gas transport module
GTP gas to power
GTS gas to solids
GTW gas to wire
LNG liquefied natural gas
LPG liquefied petroleum gas
MMscf/D million standard cubic foot per day
mtpa million tons per annum
mTPD metric tons per day
NGH natural gas hydrates
NGL natural gas liquid
ORV open rack vaporizer
PNG pressurized natural gas
SMDS Shell middle-distillate synthesis
VOTRANS volume-optimized transport and storage

References

Use this section for citation of items referenced in the text to show your sources. [The sources should be available to the reader, i.e., not an internal company document.]

Noteworthy papers in OnePetro

Use this section to list papers in OnePetro that a reader who wants to learn more should definitely read

External links

Use this section to provide links to relevant material on websites other than PetroWiki and OnePetro

See also

Monetizing stranded gas

Stranded gas

Transporting stranded gas as hydrates

PEH:Monetizing_Stranded_Gas

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