scholarly journals Long-Term Natural Gas Consumption Forecasting Based on Analog Method and Fuzzy Decision Tree

Energies ◽  
2021 ◽  
Vol 14 (16) ◽  
pp. 4905
Author(s):  
Bartłomiej Gaweł ◽  
Andrzej Paliński
Keyword(s):  
Natural Gas ◽  
Decision Trees ◽  
Energy Intensity ◽  
Fuzzy Decision ◽  
Energy Mix ◽  
Starting Point ◽  
Gas Consumption ◽  
Natural Gas Consumption ◽  
Fuzzy Decision Trees

Classic forecasting methods of natural gas consumption extrapolate trends from the past to subsequent periods of time. The paper presents a different approach that uses analogues to create long-term forecasts of the annual natural gas consumption. The energy intensity (energy consumption per dollar of Gross Domestic Product—GDP) and gas share in energy mix in some countries, usually more developed, are the starting point for forecasts of other countries in the later period. The novelty of the approach arises in the use of cluster analysis to create similar groups of countries and periods based on two indicators: energy intensity of GDP and share of natural gas consumption in the energy mix, and then the use of fuzzy decision trees for classifying countries in different years into clusters based on several other economic indicators. The final long-term forecasts are obtained with the use of fuzzy decision trees by combining the forecasts for different fuzzy sets made by the method of relative chain increments. The forecast accuracy of our method is higher than that of other benchmark methods. The proposed method may be an excellent tool for forecasting long-term territorial natural gas consumption for any administrative unit.

Data Mining Using Fuzzy Decision Trees

2010 ◽  
pp. 47-66 ◽  
Author(s):  
Malcolm J. Beynon ◽  
Martin Kitchener
Keyword(s):  
Data Mining ◽  
Decision Trees ◽  
State Government ◽  
Fuzzy Set ◽  
Long Term Care ◽  
General Strategy ◽  
Fuzzy Decision ◽  
Term Care ◽  
Fuzzy Decision Trees

The chapter exposits the strategies employed by the public long-term care systems operated by each U.S. state government. The central technique employed in this investigation is fuzzy decision trees (FDTs), producing a rule-based classification system using the well known soft computing methodology of fuzzy set theory. It is a timely exposition, with the employment of set-theoretic approaches to organizational configurations, including the fuzzy set representation, starting to be discussed. The survey details considered, asked respondents to assign each state system to one of the three ‘orientations to innovation’ contained within Miles and Snows’ (1978) classic typology of organizational strategies. The instigated aggregation of the experts’ opinions adheres to the fact that each long-term care system, like all organizations, is “likely to be part prospector, part defender, and part reactor, reflecting the complexity of organizational strategy”. The use of FDTs in the considered organization research problem is pertinent since the linguistic based fuzzy decision rules constructed, open up the ability to understand the relationship between a state’s attributes and their predicted position in a general strategy domain - the essence of data mining.

Short-term natural gas consumption forecasting from long-term data collection

Energy ◽  
2021 ◽  
Vol 218 ◽  
pp. 119430
Author(s):  
Radek Svoboda ◽  
Vojtech Kotik ◽  
Jan Platos
Keyword(s):  
Natural Gas ◽  
Data Collection ◽  
Short Term ◽  
Gas Consumption ◽  
Natural Gas Consumption ◽  
Term Data

scholarly journals Analysis of natural gas consumption and energy saving measures for powder coating and food processing companies in the Greater Toronto area (GTA)

2021 ◽  
Author(s):  
Md Maniruzzaman Akan
Keyword(s):  
Energy Consumption ◽  
Natural Gas ◽  
Production Scheduling ◽  
Energy Intensity ◽  
Performance Indicator ◽  
Powder Coating ◽  
Greater Toronto Area ◽  
Gas Consumption ◽  
Natural Gas Consumption ◽  
Heating Degree Days

Small and medium industries (SMEs) savings analysis and meaningful performance indicators can help Enbridge Gas Distribution Inc., and individual SMEs make effective decisions to improve facility performance. For this study, information on 11 SMEs’ energy consumption has been provided. This entails: preliminary benchmarking, separation of process and seasonal energy consumption, heating degree days, individual facilities owned reference temperature, normalized annual energy consumption, normalized process and seasonal energy consumption, oven energy consumption, energy balance of oven, energy intensity of oven, and non-productive energy consumption. The most appropriate performance indicator is energy intensity of oven-in bake ovens, cure ovens, and dry-off ovens. The results observed energy intensity in terms of natural gas consumption of bake ovens are from 24m3/ft3 to 30m3/ft3, where the intensity of ovens with finishing process companies are from 8m3/ft3 to 36m3/ft3. Potential natural gas savings from the facilities processing powder coating and baking are 19% to 53% of total oven energy consumption by reducing exhaust energy loss. In the same study observed in analyzing production scheduling, that 8% to 69% of energy consumption can be saved by proper shut-down operation and scheduling.

scholarly journals Analysis of natural gas consumption and energy saving measures for powder coating and food processing companies in the Greater Toronto area (GTA)

2021 ◽  
Author(s):  
Md Maniruzzaman Akan
Keyword(s):  
Energy Consumption ◽  
Natural Gas ◽  
Production Scheduling ◽  
Energy Intensity ◽  
Performance Indicator ◽  
Powder Coating ◽  
Greater Toronto Area ◽  
Gas Consumption ◽  
Natural Gas Consumption ◽  
Heating Degree Days

Small and medium industries (SMEs) savings analysis and meaningful performance indicators can help Enbridge Gas Distribution Inc., and individual SMEs make effective decisions to improve facility performance. For this study, information on 11 SMEs’ energy consumption has been provided. This entails: preliminary benchmarking, separation of process and seasonal energy consumption, heating degree days, individual facilities owned reference temperature, normalized annual energy consumption, normalized process and seasonal energy consumption, oven energy consumption, energy balance of oven, energy intensity of oven, and non-productive energy consumption. The most appropriate performance indicator is energy intensity of oven-in bake ovens, cure ovens, and dry-off ovens. The results observed energy intensity in terms of natural gas consumption of bake ovens are from 24m3/ft3 to 30m3/ft3, where the intensity of ovens with finishing process companies are from 8m3/ft3 to 36m3/ft3. Potential natural gas savings from the facilities processing powder coating and baking are 19% to 53% of total oven energy consumption by reducing exhaust energy loss. In the same study observed in analyzing production scheduling, that 8% to 69% of energy consumption can be saved by proper shut-down operation and scheduling.

scholarly journals Reconstructed and Projected U.S. Residential Natural Gas Consumption during 1896–2043

2018 ◽  
Vol 57 (3) ◽  
pp. 607-625 ◽  
Author(s):  
Steven A. Mauget
Keyword(s):  
Natural Gas ◽  
Climate Variation ◽  
Temperature Cycle ◽  
Total Consumption ◽  
Climate Conditions ◽  
Positive Effects ◽  
Gas Consumption ◽  
Natural Gas Consumption ◽  
Per Capita

AbstractUsing state-level monthly heating degree-day data, reconstructed per capita natural gas (NGr) consumption records for each state of the continental United States were calculated for 1895–2014 using linear regressions. The regressed monthly NGr values estimate the effects of twentieth- and early twenty-first-century climate variation on per capita natural gas usage, assuming a modern (1990–2013) consumption environment. Using these extended consumption records, the hypothetical effects of climate on past, current, and future natural gas (NG) use are estimated. By controlling for nonclimatic consumption effects, these extended reconstructions provide estimates of the sensitivity of NG consumption to historical climate variation, particularly long-term warming trends, occurring before the period of available consumption records. After detrending, the reconstructions are used to form improved estimates of interannual NG variation under current climate conditions. Given estimates of each state’s current consumption climatology and long-term trends in per capita consumption and current population trends, the net effect of warming and increasing population on future consumption is estimated. Significant long-term negative trends in per capita NG consumption are found in western and northeastern states and in Florida, while southeastern consumption effects reflect a multidecadal temperature cycle. Climate-related consumption effects found here are generally consistent with previous studies, with long-term trend effects limited to less than 12% and multidecadal regime effects limited to less than 9%. Given the stronger positive effects of increasing population on total state natural gas consumption, reduced per capita use associated with warming trends has a weak moderating effect on estimates of projected total consumption in 2043.

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