我国工业节能现状调研和对策

近年来我国一次能源的消费持续快速增长,尤其是工业领域能耗巨大,约占我国总能耗的70%,能源供应形势严峻。针对目前我国以化石能源消耗为主的能耗结构,本文在用能现状分析的基础上,着重从科学用能的角度提出了节能降耗的关键技术路线,主要包括热能的梯级利用、能源-资源的综合利用、动力机械节能、余能的回收利用等,同时探讨了依靠良好的政策管理、积极的示范推广来实现节能的目的。     

Analysis of sectoral energy conservation in Malaysia

The electrical energy consumption in Malaysia has increased sharply in the past few years, and modern energy efficient technologies are desperately needed for the national energy policy. This article presents a comprehensive picture of the current status of energy consumption and various energy conservation options viable for Malaysian environment. A detailed survey is made to assess the consumption pattern and the existing techniques for energy efficiency. Based on the survey, the feasibility of improving the available systems and adopting new programs in different sectors is investigated. The study reveals the fact that the energy conservation policy of the country has been fairly improved in the last ten years. However the country has to pay more attention to this area and make urgent measures to adopt more energy efficient technologies in various sectors.     

The Philippines' five-year energy program: 1981–85

The paper states the rationale behind the Philippines' Five-Year Energy Program; its underlying philosophy which is to provide the consumer with cost-effective energy alternatives that are essential to the economic, social and political progress of the nation; the basic policy objectives as well as the concrete plans of action and quantitative goals of each sector.Assuming a 6.3% growth rate in energy demand, it is envisioned that the Philippines' total commercial energy requirements by 1985 will amount to about 120 million barrels-of-oil equivalent. The industrial sector will absorb 47.5%, in consonance with the industrial expansion program of the government. The share of transportation is expected to reach 26.6%, with the balance to be accounted for by the residential and commercial sectors (25.9%).Pursuant to the state's policy to achieve self-reliance in energy supply, national dependence on oil is programmed to decline from 87.9% in 1980 to 49.7% in 1985, as the expected energy demand is met by indigenous sources. Hydro, coal and geothermal power will substantially displace oil utilization, their share increasing from 12.1% in 1980 to 45.2% in 1985. In addition to domestic crude oil production, development of non-oil resources could realize for the Philippines a 56% self-sufficiency target by the end of 1985.A total financial package of $8.29 billion is required over the next five years to fully operationalize the target program. This corresponds to an average yearly requirement of $1.66 billion—the financial magnitude of this program underscores the premium attached to long-term national aspirations for energy self-reliance.     

A review of renewable energy based cogeneration technologies

A major focus of the current energy debate is how to meet the future demand for electricity. Conservation in buildings and industry, and conversion of utility central station capacity to alternate fuels will play a major role in meeting this demand. But cost-effective conservation measures can only go so far, and the industrial and commercial sectors ultimately will have to seek alternative sources of energy. Moreover, electric utilities may face financial, environmental, or other constraints on the conversion of their existing capacity to fuels other than oil, or on the construction of new alternate-fuelled capacity. A wide range of alternate fuels and conversion technologies has been proposed for the industrial, commercial, and electric utility sectors. One of the most promising commercially available technologies is cogeneration. Cogeneration systems produce both electrical (or mechanical) energy and thermal energy from the same primary energy source. This paper reviews the present day cogeneration technologies based on renewable sources of energy. Study of novel methods, existing designs, theoretical and experimental analyses, modeling and simulation, environmental issues and economics and related energy policies have been discussed in this paper.     

An investigation into the present situation and characteristics of china's energy consumption

The present situation of China's energy consumption and its composition in the past decade is introduced in this paper. The characteristics of energy consumption in China are: energy sources are mainly supplied domestically; coal predominates in the composition of energy consumption (average 725%); industrial energy consumption takes the largest proportion of the final energy consumption (average 65.6%); the utilization efficiency of energy is low; serious environmental pollution is caused by coal combustion. It is necessary to conduct technology innovation for energy conservation because of the low efficiency utilization of energy by appliances and the backwardness of industrial technologies. China must carry out continuously the principle ‘lay equal stress on development and conservation and give priority to conservation in the near future’ with the idea that the economy will have a high growth rate.     

The long-run price sensitivity dynamics of industrial and residential electricity demand: The impact of deregulating electricity prices

This study examines the demand-side of Ghana's electricity sector. We test two important related hypotheses: (1) deregulation of electricity price does not promote energy conservation, and (2) demand-price relationship is not an inverted U-shaped. The Stock and Watson dynamic OLS is used to address the so-called second-order bias. The result showed that, deregulation of electricity price in Ghana has induced behaviours that are more consistent with energy conservation improvements. The demand-price relationship is an inverted U, which suggests that there is a price range that end-users can tolerate further price rise and still increase their consumption of electricity. However, the degree of price tolerability is higher for residential consumers than industrial consumers. The simulation results showed that, further economic growth is likely to compromise energy conservation but more in the industrial sector than the residential sector. On the other hand, future crude oil price is likely to deteriorate energy conservation in the initial years after 2016, but this trend is likely to reverse after the year 2020. Pricing mechanisms are potent to induce energy conservation but inadequate. The results suggest that they should be complemented with other stringent policies such as a mandatory energy reduction policy, investment in renewables, and personalization of energy efficiency programs.     

Exergy analysis of the energy use in Greece

In this work, an analysis is being done on the concept of energy and exergy utilization and an application to the residential and industrial sector of Greece. The energy and exergy flows over the period from 1990 to 2004 were taken into consideration. This period was chosen based on the data reliability. The energy and exergy efficiencies are calculated for the residential and industrial sectors and compared to the findings of a previous study concerning the exergy efficiency of the Greek transport sector. The residential energy and exergy efficiencies for the year 2003 were 22.36% and 20.92%, respectively, whereas the industrial energy and exergy efficiencies for the same year were 53.72% and 51.34%, respectively. The analysis of energy and exergy utilization determines the efficiency of the economy as a whole. The results can play an important role in the establishment of efficiency standards of the energy use in various economy sectors. These standards could be utilized by energy policy makers.     

Why did China’s energy intensity increase during 1998–2006: Decomposition and policy analysis

Despite the fact that China’s energy intensity has continuously decreased during the 1980s and mostly 1990s, the decreasing trend has reversed since 1998 and the past few years have witnessed rapid increase in China’s energy intensity. We firstly conduct an index decomposition analysis to identify the key forces behind the increase. It is found that: (1) the high energy demand in industrial sectors is mainly attributed to expansion of production scale, especially in energy-intensive industries; (2) energy saving mainly comes from efficiency improvement, with energy-intensive sectors making the largest contribution; and (3) a heavier industrial structure also contributes to the increase. This study also makes the first attempt to bridge the quantitative decomposition analysis with qualitative policy analyses and fill the gap between decomposition results and policy relevance in previous work. We argue that: (1) energy efficiency improvement in energy-intensive sectors is mainly due to the industrial policies that have been implemented in the past few years; (2) low energy prices have directly contributed to high industrial energy consumption and indirectly to the heavy industrial structure. We provide policy suggestions in the end.     

China's energy efficiency target 2010

The Chinese government has set an ambitious target: reducing China's energy intensity by 20%, or 4.36% each year between 2006 and 2010 on the 2005 level. Real data showed that China missed its target in 2006, having reduced its energy intensity only by 1.3%. The objective of this study is to evaluate the feasibility and potential of the Chinese to achieve the target. This paper presents issues of macro-economy, population migration, energy savings, and energy efficiency policy measures to achieve the target. A top-down approach was used to analyse the relationship between the Chinese economic development and energy demand cycles and to identify the potentials of energy savings in sub-sectors of the Chinese economy. A number of factors that contribute to China's energy intensity are identified in a number of energy-intensive sectors. This paper concludes that China needs to develop its economy at its potential GDP growth rate; strengthen energy efficiency auditing, monitoring and verification; change its national economy from a heavy-industry-dominated mode to a light industry or a commerce-dominated mode; phase out inefficient equipment in industrial sectors; develop mass and fast railway transportation; and promote energy-efficient technologies at the end use. This paper transfers key messages to policy makers for designing their policy to achieve China's energy efficiency target.     

The present situation and characteristics of China's energy consumption

China's present energy consumption and its composition in the past decade is introduced in this paper. Energy in China is mainly sourced domestically; coal predominates in the composition of energy consumption (average 72.5%); industrial energy consumption is a large proportion of final energy consumption (average 65.6%); the utilization efficiency of energy is low; serious environment pollution is caused by coal combustion. It is necessary to introduce technology innovation for energy conservation because of the low energy efficiency of equipment and the backwardness of industrial technologies. China must ‘lay equal stress on development and conservation and give priority to conservation in the near future’ while maintaining economic growth.     

Energy efficiency policy impact in India: case study of investment in industrial energy efficiency

The objective of this paper is to identify the effectiveness of energy policy and capital investment in energy efficiency technologies in the industrial sector in India. Indian energy policies relating to industrial energy efficiency over the past 25 years are briefly reviewed, and a comparison study of these energy efficiency policies and strategies in India and China has been carried out. Interviews were conducted with a number of government policy-making institutions and a national industrial development bank. The accounts of 26 industrial enterprises which applied and used a loan of the Asian Development Bank were audited for data collection. Field-visits to seven industrial entrepreneurs were undertaken in a case study. Methodologies used in this study include documentation, cross-country reviews on energy policies, questionnaire design and distribution in the industrial sector, and on-site auditing of energy efficiency technologies. This paper concludes that current energy policies and strategies in India need further improvement to promote energy efficiency investment and energy efficiency technology development in the industrial sector. This paper will interest those policy makers and industrial entrepreneurs who are willing to finance energy efficiency projects and improve energy efficiency in the industrial sector.     

Energy efficiency trends and policy in Slovenia

The energy dependency of Slovenia is high (52.1%), but it is a little lower than the average energy dependency in the EU 27 (53.8%). Slovenia imports all its petroleum products and natural gas and partly coal and electricity. The energy intensity of Slovenia is higher by about 50% than the average in the EU 27. The target of the EU Directive on energy end-use efficiency and energy services adopted in 2006 is to achieve a 9% improvement of EE (energy efficiency) within the period 2008-2016. The new target of the EU climate and energy package “20-20-20 plan” is a 20% increase in EE by 2020. Since 1991 the Slovenian government has been supporting energy efficiency activities. The improvement of EE was one of the targets of strategic energy documents ReSROE (Resolution on the Strategy of Use and Supply of Energy in Slovenia from 1996 and ReNEP (Resolution on the National Energy Programme) from 2004 adopted by the Slovenian National Assembly (Parliament) in previous years. The Energy Act adopted in 1999 defines the objective of energy policy as giving priority to EE and utilization of renewable energy sources. The goals of the “National Energy Action Plan 2008-2016 (NEEAP)” adopted by the Slovenian government in 2008 include a set of energy efficiency improvement instruments in the residential, industrial, transport and tertiary sectors. The target of the NEEAP is to save final energy in the 2008-2016 period, amounting to at least 4261 GWh or 9% of baseline consumption. The indicators of energy efficiency trends show considerable improvement in the period from 1998 to 2007. The improvement of EE was reached in all sectors: manufacturing, transport and households. The paper analyses the structure, trends of energy consumption and energy efficiency indicators by sectors of economic activity. A review of energy efficiency policy and measures is described in the paper.     

Introducing technology learning for energy technologies in a national CGE model through soft links to global and national energy models

This paper describes a method to model the influence by global policy scenarios, particularly spillover of technology learning, on the energy service demand of the non-energy sectors of the national economy. It is exemplified by Norway. Spillover is obtained from the technology-rich global Energy Technology Perspective model operated by the International Energy Agency. It is provided to a national hybrid model where a national bottom-up Markal model carries forward spillover into a national top-down CGE¹ model at a disaggregated demand category level. Spillover of technology learning from the global energy technology market will reduce national generation costs of energy carriers. This may in turn increase demand in the non-energy sectors of the economy because of the rebound effect. The influence of spillover on the Norwegian economy is most pronounced for the production level of industrial chemicals and for the demand for electricity for residential energy services. The influence is modest, however, because all existing electricity generating capacity is hydroelectric and thus compatible with the low emission policy scenario. In countries where most of the existing generating capacity must be replaced by nascent energy technologies or carbon captured and storage the influence on demand is expected to be more significant.     

Grey relation performance correlations among economics,energy use and carbon dioxide emission in Taiwan

This study explores the inter-relationships among economy, energy and CO₂ emissions of 37 industrial sectors in Taiwan in order to provide insight regarding sustainable development policy making. Grey relation analysis was used to analyse the productivity, aggregate energy consumption, and the use of fuel mix (electricity, coal, oil and gas) in relation to CO₂ emission changes. An innovative evaluative index system was devised to explore grey relation grades among economics, energy and environmental quality. Results indicate that a rapid increase in electricity generation during the past 10 years is the main reason for CO₂ emission increase in Taiwan. The largest CO₂ emitting sectors include iron and steel, transportation, petrochemical materials, commerce and other services. Therefore, it is important to reduce the energy intensity of these sectors by energy conservation, efficiency improvement and adjustment of industrial structure towards high value-added products and services. Economic growth for all industries has a more significant influence, than does total energy consumption, on CO₂ emission increase in Taiwan. It is also important to decouple the energy consumption and production to reduce the impacts of CO₂ on economic growth. Furthermore, most of the sectors examined had increased CO₂ emissions, except for machinery and road transportation. For high energy intensive and CO₂ intensive industries, governmental policies for CO₂ mitigation should be directed towards low carbon fuels as well as towards enhancement of the demand side management mechanism, without loss of the nation's competitiveness.     

Waste gas emission control and constraints of energy and economy in China

This paper studies the characteristics of waste gas emission (WGE), energy consumption (EC) and economic development in China, and analyzes the reason for the change of waste gas intensity (WI) in order to provide necessary information for policy maker. Firstly, this paper describes the situation of WGE and the primary factors in China in general to describe the relationship among energy, economy and environmental at the national level. Then we detect the main sectors for WGE that have notable effectiveness for economic and EC through the comparison of the percentage of EC, value added (VA) and industrial WGE from combustion in 39 industrial sectors. Then with the calculation of energy intensity (EI), clean level (CL) and WI, this paper selects those crucial sectors for waste gas control and shows the efficiency of waste gas control in these sectors from 2001 to 2005. The result showed most waste gas came from heavy industrial sectors. However, heavy industrial sectors usually have lower CL than light industries. Moreover, within these sectors, some sectors, particularly Production and supply of electric power and heat power, showed the tendency of worsening efficiency for waste gas control from 2001 to 2005.     

Design of a PEM fuel cell system for residential application

Fuel cells are energy transformation technologies and they are clean, don't damage to environment, have high efficiency and provide uninterruptible energy generation. Research and development studies about fuel cells have been done increasingly. In the recent years, fuel cell technologies have performed in some sectors such as military, industrial, space, portable, residential, transportation and trading.     

Energy efficiency achievements in China׳s industrial and transport sectors: How do they rate?

China is experiencing intensified industrialisation and motorisation. In the world׳s largest emerging economy, energy efficiency is expected to play a critical role in the ever-rising demand for energy. Based on factual overviews and numerical analysis, this article carries out an in-depth investigation into the effectiveness of policies announced or implemented in recent decades targeted at energy conservation in the energy intensive manufacturing and transportation sectors. It highlights nine energy intensive sectors that achieved major improvements in their energy technology efficiency efforts. Under the umbrella of the 11th Five-Year Plan, these sectors׳ performances reflect the effectiveness of China׳s energy conservation governance. Numerous actions have been taken in China to reduce the road transport sector׳s demand for energy and its GHG emissions by implementing fuel economy standards, promoting advanced energy efficient vehicles, and alternative fuels.Coal-based energy saving technologies, especially industrial furnace technologies, are critical for China׳s near and medium-term energy saving. In the long run, renewable energy development and expanding the railway transport system are the most effective ways to reduce energy use and GHG emissions in China. Fuel economy standards could reduce oil consumption and GHGs by 34–35 per cent.     

State-level benefits of energy efficiency

This paper describes benefits attributable to state-level energy efficiency programs. Nationwide, state-level energy efficiency programs have targeted all sectors of the economy and have employed a wide range of methods to promote energy efficiency. Standard residential and industrial programs typically identify between 20% and 30% energy savings in homes and plants, respectively. Over a 20-year period of time, an average state that aggressively pursues even a limited array of energy efficiency programs can potentially reduce total state energy use by as much as 20%. Well-designed energy efficiency programs can be expected to help overcome numerous barriers to the market penetration of energy efficient technologies and accelerate the market penetration of the technologies. Energy efficiency programs are cost-effective; typical benefit–cost ratios exceed 3:1 and are much higher when non-energy and macroeconomic benefits are included. Indeed, energy efficiency and associated programs and investments can create significant numbers of new jobs and enhance state tax revenues. Several states have incorporated energy efficiency into their economic development programs. It should also be noted that increasing amounts of venture capital are being invested in the energy sector in general and in specific technologies like solar power in particular.     

Linking historic developments and future scenarios of industrial energy use in the Netherlands between 1993 and 2040

Monitoring energy efficiency improvements is essential for policy evaluation and for future policy making. We estimate the annual energy efficiency improvements achieved in six Dutch industry sectors between 1993 and 2008 by using a bottom-up model. This model incorporates the production data and specific energy consumption values of 122 products. We estimate annual energy efficiency improvements of 1.0 % per annum (p.a.) for the total industry (excluding non-energy use); even though the results are subject to uncertainties due to errors in the energy statistics, we consider them as strong indication that Dutch industry needs to reinforce its efforts in energy efficiency. Based on historical achievements between 1989 and 2008, Business as Usual (BaU) scenarios project annual improvement potentials of 0.6–1.8 % p.a. until 2040. Based on literature review, this study estimates that implementing energy saving technologies can accelerate energy efficiency improvements to 2 % p.a. and beyond. Efficient combined heat and power technologies could increase these potentials further. These are beyond the historical achievements and BaU scenario projections. New policies will be required for technology development which ensures continuous energy efficiency improvements. The findings of this paper need to be extended by continuous monitoring and more scenario analyses with improved data.     

“十一五”工业节能面临的挑战与对策

单位GDP能耗降低20%这一“十一五”节能目标的提出,意味着对“十一五”工业节能提出了极高的要求。本文对“十一五”工业节能目标进行了测算,归纳了“十一五”工业节能降耗的现实可能途径,分析了“十一五”工业节能面临的挑战,并提出了较具针对性和可操作性的强化工业节能对策建议。