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	IPCC Fourth Assessment Report: Climate Change 2007

Climate Change 2007: Working Group III: Mitigation of Climate Change

7.1.3 Emission trends

Total industrial sector GHG emissions are currently estimated to be about 12 GtCO₂-eq/yr (3.3 GtC-eq/yr) (high agreement, much evidence). Global and sectoral data on final energy use, primary energy use^[3], and energy-related CO₂ emissions including indirect emissions related to electricity use, for 1971 to 2004 (Price et al., 2006), are shown in Table 7.1. In 1971, the industrial sector used 91 EJ of primary energy, 40% of the global total of 227 EJ. By 2004, industry’s share of global primary energy use declined to 37%.

Table 7.1: Industrial sector final energy, primary energy and energy-related carbon dioxide emissions, nine world regions, 1971–2004

	Final energy (EJ)			Primary energy (EJ)			Energy-related carbon dioxide, including indirect emissions from electricity use (MtCO₂)
	1971	1990	2004	1971	1990	2004	1971	1990	2004
Pacific OECD	6.02	8.04	10.31	8.29	11.47	14.63	524	710	853
North America	20.21	19.15	22.66	25.88	26.04	28.87	1,512	1,472	1512
Western Europe	14.78	14.88	16.60	19.57	20.06	21.52	1,380	1,187	1126
Central and Eastern Europe	3.75	4.52	2.81	5.46	7.04	3.89	424	529	263
EECCA	11.23	18.59	9.87	15.67	24.63	13.89	1,095	1,631	856
Developing Asia	7.34	19.88	34.51	9.38	26.61	54.22	714	2,012	4098
Latin America	2.79	5.94	8.22	3.58	7.53	10.87	178	327	469
Sub-Saharan Africa	1.24	2.11	2.49	1.70	2.98	3.60	98	178	209
Middle East/North Africa	0.83	4.01	6.78	1.08	4.89	8.63	65	277	470
World	68.18	97.13	114.25	90.61	131.25	160.13	5,990	8,324	9855
Notes: EECCA = countries of Eastern Europe, the Caucasus and Central Asia. Biomass energy included. Industrial sector ‘final energy’ use excludes energy consumed in refineries and other energy conversion operations, power plants, coal transformation plants, etc. However, this energy is included in ‘primary energy’. Upstream energy consumption was reallocated by weighting electricity, petroleum and coal products consumption with primary factors reflecting energy use and loses in energy industries. Final energy includes feedstock energy consumed, for example in the chemical industry. ‘CO₂ emissions’ in this table are higher than in IEA’s Manufacturing Industries and Construction category because they include upstream CO₂ emissions allocated to the consumption of secondary energy products, such as electricity and petroleum fuels. To reallocate upstream CO₂ emissions to final energy consumption, we calculate CO₂ emission factors, which are multiplied by the sector’s use of secondary energy. Source: Price et al., 2006.

The developing nations’ share of industrial CO₂ emissions from energy use grew from 18% in 1971 to 53% in 2004. In 2004, energy use by the industrial sector resulted in emissions of 9.9 GtCO₂ (2.7 GtC), 37% of global CO₂ emissions from energy use. Direct CO₂ emissions totalled 5.1 Gt (1.4 GtC), the balance being indirect emissions associated with the generation of electricity and other energy carriers. In 2000, CO₂ emissions from non-energy uses of fossil fuels (e.g., production of petro-chemicals) and from non-fossil fuel sources (e.g., cement manufacture) were estimated to be 1.7 GtCO₂ (0.46 GtC) (Olivier and Peters, 2005). As shown in Table 7.3, industrial emissions of non-CO₂ gases totalled about 0.4 GtCO₂-eq (0.1 GtC-eq) in 2000 and are projected to be at about the same level in 2010. Direct GHG emissions from the industrial sector are currently about 7.2 GtCO₂-eq (2.0 GtC-eq), and total emissions, including indirect emissions, are about 12 GtCO₂-eq (3.3 GtC-eq).

Table 7.2: Projected industrial sector final energy, primary energy and energy-related CO₂ emissions, based on SRES Scenarios, 2010–2030. A1B Scenario

	Final energy (EJ)			Primary energy (EJ)			Energy-related carbon dioxide, including indirect emissions from electricity use (MtCO₂)
	2010	2020	2030	2010	2020	2030	2010	2020	2030
Pacific OECD	10.04	10.68	11.63	14.19	14.25	14.52	1,170	1,169	1,137
North America	24.95	26.81	28.34	32.32	32.84	32.94	1,875	1,782	1,650
Western Europe	16.84	18.68	20.10	24.76	25.45	25.47	1,273	1,226	1,158
Central and Eastern Europe	6.86	7.74	8.57	9.28	10.28	10.99	589	608	594
EECCA	20.82	24.12	27.74	28.83	32.20	35.43	1,764	1,848	1,853
Developing Asia	39.49	54.00	72.50	62.09	84.64	109.33	4,827	6,231	7,340
Latin America	18.20	26.58	33.13	29.14	38.72	51.09	1,492	2,045	2,417
Sub-Saharan Africa	7.01	10.45	13.70	13.27	19.04	27.40	833	1,286	1,534
Middle East/North Africa	14.54	22.21	29.17	20.34	29.20	39.32	1,342	1,888	2,224
World	158.75	201.27	244.89	234.32	286.63	346.48	15,165	18,081	19,908

Table 7.2.B2 Scenario

	Final energy (EJ)			Primary energy (EJ)			Energy-related carbon dioxide including indirect emissions from electricity use (MtCO₂)
	2010	2020	2030	2010	2020	2030	2010	2020	2030
Pacific OECD	10.83	11.64	11.38	14.27	14.17	12.83	980	836	688
North America	20.23	20.82	21.81	28.64	29.28	29.18	1,916	1,899	1,725
Western Europe	14.98	14.66	14.35	19.72	18.56	17.69	1,270	1,154	1,063
Central and Eastern Europe	3.42	4.30	5.03	4.44	5.28	6.06	327	380	424
EECCA	12.65	14.74	16.96	16.06	19.06	22.33	1,093	1,146	1,208
Developing Asia	40.68	53.62	67.63	55.29	72.42	90.54	4,115	4,960	5,785
Latin America	11.46	15.08	18.24	15.78	20.10	24.84	950	1,146	1,254
Sub-Saharan Africa	2.75	4.96	10.02	4.33	7.53	14.51	260	345	665
Middle East/North Africa	8.12	9.67	12.48	13.90	15.51	19.22	791	888	1,080
World	125.13	149.49	177.90	172.44	201.92	237.19	11,703	12,755	13,892
Note: Biomass energy included, EECCA = countries of Eastern Europe, the Caucasus and Central Asia. Source: Price et al. (2006).

Table 7.2 shows the results for the industrial sector of the disaggregation of two of the emission scenarios (see footnote 1), A1B and B2, produced for the IPCC Special Report on Emissions Scenarios (SRES) (IPCC, 2000b) into four subsectors and nine world regions (Price et al., 2006). These projections show energy-related industrial CO₂ emissions of 14 and 20 GtCO₂ in 2030 for the B2 and A1B scenarios, respectively. In both scenarios, CO₂ emissions from industrial energy use are expected to grow significantly in the developing countries, while remaining essentially constant in the A1 scenario and declining in the B2 scenario for the industrialized countries and countries with economies-in-transition.

Table 7.3 shows projections of non-CO₂ GHG emissions from the industrial sector to 2030 extrapolated from data to 2020 (US EPA 2006a,b). US EPA provides the only comprehensive data set with baselines and mitigation costs over this time frame for all gases and all sectors. However, baselines differ substantially for sectors covered by other studies, for example IPCC/TEAP (2005). As a result of mitigation actions, non-CO₂GHG emissions decreased from 1990 to 2000, and there are many programmes underway to further reduce these emissions (See Sections 7.4.2 and 7.4.8.). Therefore Table 7.3 shows the US EPA’s ‘technology adoption’ scenario, which assumes continued compliance with voluntary industrial targets. Table 7.4 shows these emissions by industrial process.^[4]

Table 7.3: Projected industrial sector emissions of non-CO₂ GHGs, MtCO₂-eq/yr

Region	1990	2000	2010	2030
Pacific OECD	38	53	47	49
North America	147	117	96	147
Western Europe	159	96	92	109
Central and Eastern Europe	31	21	22	27
EECCA	37	20	21	26
Developing Asia	34	91	118	230
Latin America	17	18	21	38
Sub-Saharan Africa	6	10	11	21
Middle East/North Africa	2	3	10	20
World	470	428	438	668
Notes: Emissions from refrigeration equipment used in industrial processes included; emissions from all other refrigeration and air conditioning applications excluded. EECCA = countries of Eastern Europe, the Caucasus and Central Asia. Source: US EPA, 2006b.

Table 7.4: Projected baseline industrial sector emissions of non-CO₂ GHGs

Industrial sector	Emissions (MtCO₂-eq/yr)
Industrial sector	1990	2000	2010	2030
N₂O emissions from adipic/nitric acid production	223	154	164	190
HFC/PFC emissions from substitutes for ozone-depleting substances^a	0	52	93	198
HFC-23 emissions from HCFC-22 production	77	96	45	106
SF₆ emission from use of electrical equipment (excluding manufacture)	42	27	46	74
PFC emission from aluminium production	98	58	39	51
PFC and SF₆ emissions from semiconductor manufacture	9	23	35	20
SF₆ emissions from magnesium production	12	9	4	9
N₂O emission from caprolactam manufacture	8	10	13	20
Total	470	428	438	668
^a Emissions from refrigeration equipment used in industrial processes included; emissions from all other refrigeration and air conditioning applications excluded. Source: US EPA, 2006a,b.

^ Primary energy associated with electricity and heat consumption was calculated by multiplying the amount of electricity and heat consumed by each end-use sector by eletricity and heat primary factors. Primary factors were derived as the ratio of fuel inputs at power plants to electricity or heat delivered. Fuel inputs for electricity production were separated from inputs to heat production, with fuel inputs in combined heat and power plants being separated into fuel inputs for electricity and heat production according to the shares of electricity and heat produced in these plants. In order to calculate primary energy for non-fossil fuel (hydro, nuclear, renewables), we followed the direct equivalent method (SRES method): the primary energy of the non-fossil fuel energy is accounted for at the level of secondary energy, that is, the first usable energy form or “currency” available to the energy system (IPCC, 2000b).
^ Tables 7.3 and 7.4 include HFC emissions from refrigeration equipment used in industrial processes and food storage, but not HFC emissions from other refrigeration and air conditioning applications. The tables also do not include HFCs from foams or non-CO₂ emissions from the food industry. Foams should be considered in the buildings sector. Global emissions from the food industry are not available, but are believed to be small compared with the totals presented in these tables.