Edmonton is closely mimicking the Calgary - style growth wave and as long as
demand for energy resources stays strong, this market will continue to do well, the report says.
Edmonton has been experiencing the same Calgary - style growth wave and as long as
demand for energy resources stays strong, this market has legs, says the report.
T. Boone Pickens» Investment Strategy And Big Wins In the early 1980s, Pickens correctly predicted that the United States was in the early stages of a booming economic cycle that would drive
demand for energy resources.
Not exact matches
Among the factors that could cause actual results to differ materially are the following: (1) worldwide economic, political, and capital markets conditions and other factors beyond the Company's control, including natural and other disasters or climate change affecting the operations of the Company or its customers and suppliers; (2) the Company's credit ratings and its cost of capital; (3) competitive conditions and customer preferences; (4) foreign currency exchange rates and fluctuations in those rates; (5) the timing and market acceptance of new product offerings; (6) the availability and cost of purchased components, compounds, raw materials and
energy (including oil and natural gas and their derivatives) due to shortages, increased
demand or supply interruptions (including those caused by natural and other disasters and other events); (7) the impact of acquisitions, strategic alliances, divestitures, and other unusual events resulting from portfolio management actions and other evolving business strategies, and possible organizational restructuring; (8) generating fewer productivity improvements than estimated; (9) unanticipated problems or delays with the phased implementation of a global enterprise
resource planning (ERP) system, or security breaches and other disruptions to the Company's information technology infrastructure; (10) financial market risks that may affect the Company's funding obligations under defined benefit pension and postretirement plans; and (11) legal proceedings, including significant developments that could occur in the legal and regulatory proceedings described in the Company's Annual Report on Form 10 - K
for the year ended Dec. 31, 2017, and any subsequent quarterly reports on Form 10 - Q (the «Reports»).
A lack of key infrastructure threatens to strand these
resources at a time when global
demand for Canadian
energy is soaring.»
In addition, the global supply /
demand imbalances in
energy and natural
resources lead us to conclude that this will be an attractive area
for the foreseeable future.
Estimates of how much
energy and natural
resources will be needed during the development phase vary wildly, but I think it's fair to assume that
demand will continue to be supported
for some time.
ACC Accounting & Auditing, AFR Africa, AGE Economics of Ageing, AGR Agricultural Economics, ARA Arab World, BAN Banking, BEC Business Economics, CBA Central Banking, CBE Cognitive & Behavioural Economics, CDM Collective Decision - Making, CFN Corporate Finance, CIS Confederation of Independent States, CMP Computational Economics, CNA China, COM Industrial Competition, CSE Economics of Strategic Management, CTA Contract Theory & Applications, CUL Cultural Economics, CWA Central & Western Asia, DCM Discrete Choice Models, DEM Demographic Economics, DEV Development, DGE Dynamic General Equilibrium, ECM Econometrics, EDU Education, EEC European Economics, EFF Efficiency & Productivity, ENE
Energy Economics, ENT Entrepreneurship, ENV Environmental Economics, ETS Econometric Time Series, EUR Microeconomics European Issues, EVO Evolutionary Economics, EXP Experimental Economics, FDG Financial Development & Growth, FIN Finance, FMK Financial Markets,
FOR Forecasting, GEO Economic Geography, GRO Economic Growth, GTH Game Theory, HAP Economics of Happiness, HEA Health Economics, HIS Business, Economic & Financial History, HME Heterodox Microeconomics, HPE History & Philosophy of Economics, HRM Human Capital & Human
Resource Management, IAS Insurance Economics, ICT Information & Communication Technologies, IFN International Finance, IND Industrial Organization, INO Innovation, INT International Trade, IPR Intellectual Property Rights, IUE Informal & Underground Economics, KNM Knowledge Management & Knowledge Economy, LAB Labour Economics, LAM Central & South America, LAW Law & Economics, LMA Labor Markets - Supply,
Demand & Wages, LTV Unemployment, Inequality & Poverty, MAC Macroeconomics, MFD Microfinance, MIC Microeconomics, MIG Economics of Human Migration, MKT Marketing, MON Monetary Economics, MST Market Microstructure, NET Network Economics, NEU Neuroeconomics, OPM Open Macroeconomics, ORE Operations Research, PBE Public Economics, PKE Post Keynesian Economics, POL Positive Political Economics, PPM Project, Program & Portfolio Management, PUB Public Finance, REG Regulation, RES
Resource Economics, RMG Risk Management, SBM Small Business Management, SEA South East Asia, SOC Social Norms & Social Capital, SOG Sociology of Economics, SPO Sports & Economics, TID Technology & Industrial Dynamics, TRA Transition Economics, TRE Transport Economics, TUR Tourism Economics, UPT Utility Models & Prospect Theory, URE Urban & Real Estate Economics.
ACC Accounting & Auditing, AFR Africa, AGE Economics of Ageing, AGR Agricultural Economics, ARA Arab World, BAN Banking, BEC Business Economics, CBA Central Banking, CBE Cognitive & Behavioural Economics, CDM Collective Decision - Making, CFN Corporate Finance, CIS Confederation of Independent States, CMP Computational Economics, CNA China, COM Industrial Competition, CSE Economics of Strategic Management, CTA Contract Theory & Applications, CUL Cultural Economics, CWA Central & Western Asia, DCM Discrete Choice Models, DEM Demographic Economics, DEV Development, DGE Dynamic General Equilibrium, ECM Econometrics, EDU Education, EEC European Economics, EFF Efficiency & Productivity, ENE
Energy Economics, ENT Entrepreneurship, ENV Environmental Economics, ETS Econometric Time Series, EUR Microeconomic European Issues, EVO Evolutionary Economics, EXP Experimental Economics, FDG Financial Development & Growth, FIN Finance, FMK Financial Markets,
FOR Forecasting, GEO Economic Geography, GRO Economic Growth, GTH Game Theory, HAP Economics of Happiness, HEA Health Economics, HIS Business, Economic & Financial History, HME Heterodox Microeconomics, HPE History & Philosophy of Economics, HRM Human Capital & Human
Resource Management, IAS Insurance Economics, ICT Information & Communication Technologies, IFN International Finance, IND Industrial Organization, INO Innovation, INT International Trade, IPR Intellectual Property Rights, IUE Informal & Underground Economics, KNM Knowledge Management & Knowledge Economy, LAB Labour Economics, LAM Central & South America, LAW Law & Economics, LMA Labor Markets - Supply,
Demand & Wages, LTV Unemployment, Inequality & Poverty, MAC Macroeconomics, MFD Microfinance, MIC Microeconomics, MIG Economics of Human Migration, MKT Marketing, MON Monetary Economics, MST Market Microstructure, NET Network Economics, NEU Neuroeconomics, OPM Open Macroeconomics, PBE Public Economics, PKE Post Keynesian Economics, POL Positive Political Economics, PPM Project, Program & Portfolio Management, PUB Public Finance, REG Regulation, RES
Resource Economics, RMG Risk Management, SBM Small Business Management, SEA South East Asia, SOC Social Norms & Social Capital, SOG Sociology of Economics, SPO Sports & Economics, TID Technology & Industrial Dynamics, TRA Transition Economics, TRE Transport Economics, TUR Tourism Economics, UPT Utility Models & Prospect Theory, URE Urban & Real Estate Economics.
One such trend, with incredible potential
for Canada, is the rapid growth of Asia's emerging economies and their impact on global
demand for energy and natural
resources.
In this perspective,
energy conservation plays the role of decreasing world
energy demand, decreasing the need
for both nuclear power (and its attendant problems) and scarce mineral
resources.
Incorporating triple bottom - line sustainability principles across all aspects of their business, the company deployed solar arrays at eight wineries and collaborated with Tesla to reduce
energy demand and increase grid reliability, utilized industry - first water conservation technologies, introduced human
resource initiatives to improve employees» well - being, paid a price premium
for certified sustainable winegrapes and led voluntary drought initiatives.
The Department of Citywide Administrative Services, which manages properties and
resources for city agencies, received $ 9.3 million
for cutting back on
energy use during peak
demand hours last summer.
«Developing our
resources on the coastal plain is an important facet
for meeting our nation's
energy demands and achieving
energy dominance,» said Interior's assistant secretary
for land and minerals management, Joe Balash.
The authors find that the main barriers to large - scale deployment of both macro - and micro-algae, include high
demands of key
resources for algal growth (such as nutrients, water and CO ₂), difficulty in maintaining selected species with high productivity content in outdoor culture, as well as high
energy requirements and costs of algal production and conversion into biofuels.
For them, Samsø's planners preach the simplest methods of stretching the island's
resources: insulation, new appliances, and relatively cheap ways to reduce
energy demand.
The Principal Investigator of the study, Dr Felix Eigenbrod, Associate Professor (Spatial Ecology) at the University of Southampton's Centre
for Biological Sciences, says: «The growing geographic disconnect between
energy demand, the extraction and processing of
resources, and the environmental impacts associated with
energy production activities makes it crucial to factor global trade into sustainability assessments.
Per capita income in those nations has skyrocketed, raising the standard of living to unprecedented heights but creating ravenous new
demand for energy and natural
resources.
The researchers suggests that the
energy demands of intelligence eat up limited
resources, leaving smart bees with less
energy for foraging than slower - learning counterparts.
With the world population expected to reach 9 billion by 2050, engineers and scientists are looking
for ways to meet the increasing
demand for food without also increasing the strain on natural
resources, such as water and
energy — an initiative known as the food - water -
energy nexus.
UW - Madison's new
Resource and
Energy Demand Analysis (REDA) program is a one - year route to a master's degree, with plenty of demand for graduates in the energy ind
Energy Demand Analysis (REDA) program is a one - year route to a master's degree, with plenty of demand for graduates in the energy ind
Demand Analysis (REDA) program is a one - year route to a master's degree, with plenty of
demand for graduates in the energy ind
demand for graduates in the
energy ind
energy industry.
If you're looking
for sustainable
energy, high - quality sleep, physical strength, and mental sharpness to meet modern - day
demands, Thrive Foods is the
resource for you.
For teachers this sustainability of the required energy levels can be extraordinarily demanding, and there is a point of diminishing returns when the required energy for enthusiastic teaching outstrips their personal resourc
For teachers this sustainability of the required
energy levels can be extraordinarily
demanding, and there is a point of diminishing returns when the required
energy for enthusiastic teaching outstrips their personal resourc
for enthusiastic teaching outstrips their personal
resources.
In November, the Organization of the Petroleum Exporting Countries (OPEC) said that it wasn't going to force its members to cut production; an increasing amount of supply is also coming from America, while slowing
resource demand from China and other emerging markets suggest that
demand for energy will be lower.
The reality is that
demand for energy and
resources is going to increase dramticaly and how do we address the need in the best manner possible.
The new directive is the culmination of an extensive interagency review process undertaken in response to rapid changes taking place in the Arctic, the principal drivers of which are climate change, increasing human presence in the region, and the growing
demand for Arctic
energy deposits and other natural
resources.
In other words, as people move out of utter poverty into the middle class lifestyle or something better, their
resource demands for energy,
for all kinds of materials, goes up.
I can't do more at the moment because I'm tied up this week visiting the Institute
for Applied Systems Analysis near (roasting) Vienna, one of the world's top hubs assessing economic, population and climate trends, as well as
energy and
resource demands.
Through appropriate building design, behavioural change and
demand management (this does not mean living like a cave - man, just using
resources efficiently) and appropriate matching of
energy source with
demand (i.e using solar radiation, not brown coal fired electricity
for water heating), it is possible to eliminate these emissions completely.
The combined strength of SkyPower's wealth of global experience in developing utility - scale solar parks and Grupo Uribe's long - standing credible presence in the Mexican
energy sector enables the joint venture to rapidly deploy its capital and
resources in order to immediately execute on large - scale solar development opportunities to align with Mexico's
demand for solar.
From a global perspective, we are faced with daunting challenges as documented in World
Resources, 1996 - 97: the accelerating confluence of population expansion, increased
demand for energy, food, clean drinking water, adequate housing, the destructive environmental effects of pollution from fossil fuels and nuclear waste, plus the growing divergence between the haves and have - nots and the potential
for ensuing conflicts.
The Earth contains more than enough
energy resources to meet
demand for many decades to come.
Henry Yoshimura is the Director of
Demand Resource Strategy for ISO New England where he is responsible for integrating distributed energy resources (energy efficiency, demand response, distributed generation) into the New England wholesale electricity m
Demand Resource Strategy
for ISO New England where he is responsible
for integrating distributed
energy resources (
energy efficiency,
demand response, distributed generation) into the New England wholesale electricity m
demand response, distributed generation) into the New England wholesale electricity market.
This demonstrates that there is significant waste in the treatment of fossil fuels that will disappear when a price signal
for wasting the
resource is sent to consumers; further, we know there are significant and readily available alternatives
for energy to
energy derived from burning carbon, and when the price is made clear and fair, the preference
for these alternatives is amply illustrated in the Market; from these two effects we see that the Law of Supply and
Demand is relevant to the pricing of CO2E, and not monopolistic pricing.
The City of Eugene has developed and is implementing strategies include increasing water conservation; increasing investment in the urban forest; removing essential services from the 100 - year flood zone; and increasing
energy efficiency to reduce
demand for hydroelectricity, a
resource that is expected to decline with climate change; conducting a food security assessment
If we could manage to adjust all
energy demand to variable solar and wind
resources, there would no need
for energy storage, grid extensions, balancing capacity or overbuilding renewable power plants.
Kris says:... renewable
energy would ideally be used only when it's available... If we could manage to adjust all
energy demand to variable solar and wind
resources, there would be no need
for grid extensions, balancing capacity or overbuilding renewable power plants.
The model uses information on water
demand and availability provided by existing global integrated assessment models at IIASA, including the Community Water Model (CWATM); the Model
for Energy Supply Strategy Alternatives and their General Environmental Impacts (MESSAGE); and the Global Biosphere Management Model (GLOBIOM), and provides information on water
resources development, allocation and cost to those models.
If we could manage to adjust all
energy demand to variable solar and wind
resources, there would be no need
for grid extensions, balancing capacity or overbuilding renewable power plants.
On Jan. 23, ISO New England CEO Gordon van Welie testified before the Senate
Energy and Natural
Resources Committee that, «when it gets cold the region does not have sufficient gas infrastructure to meet
demand for both home heating and power generation.»
Energy efficiency works hand in hand with coordinated improvements in the energy system: by reducing overall demand for energy, energy efficiency allows renewable energy resources to ramp up and offsets the additional electricity that will be used by electric vehicles and heat
Energy efficiency works hand in hand with coordinated improvements in the
energy system: by reducing overall demand for energy, energy efficiency allows renewable energy resources to ramp up and offsets the additional electricity that will be used by electric vehicles and heat
energy system: by reducing overall
demand for energy, energy efficiency allows renewable energy resources to ramp up and offsets the additional electricity that will be used by electric vehicles and heat
energy,
energy efficiency allows renewable energy resources to ramp up and offsets the additional electricity that will be used by electric vehicles and heat
energy efficiency allows renewable
energy resources to ramp up and offsets the additional electricity that will be used by electric vehicles and heat
energy resources to ramp up and offsets the additional electricity that will be used by electric vehicles and heat pumps.
«This is radically anti-consumer and, ironically, at odds with the grid modernization recommendations of the CES that want to explore integrating smart meters, efficiency and
demand response, storage, solar, and other customer - sited
resources for numerous grid benefits, including peak -
demand management,» said Bill Dornbos, advocacy director and senior attorney
for the regional environmental group Acadia Center, which in December spearheaded a statement of principles by
energy and environmental activists.
Energy efficiency works hand in hand with coordinated improvements in the energy system: by reducing overall demand for energy, energy efficiency allows renewable energy resources to ramp up and offsets increased electricity demand from electric vehicles and heat
Energy efficiency works hand in hand with coordinated improvements in the
energy system: by reducing overall demand for energy, energy efficiency allows renewable energy resources to ramp up and offsets increased electricity demand from electric vehicles and heat
energy system: by reducing overall
demand for energy, energy efficiency allows renewable energy resources to ramp up and offsets increased electricity demand from electric vehicles and heat
energy,
energy efficiency allows renewable energy resources to ramp up and offsets increased electricity demand from electric vehicles and heat
energy efficiency allows renewable
energy resources to ramp up and offsets increased electricity demand from electric vehicles and heat
energy resources to ramp up and offsets increased electricity
demand from electric vehicles and heat pumps.
Energy efficiency works hand in hand with coordinated improvements in our energy system: by reducing overall demand for energy, energy efficiency allows renewable energy resources to ramp up and offsets increased electricity demand from new technol
Energy efficiency works hand in hand with coordinated improvements in our
energy system: by reducing overall demand for energy, energy efficiency allows renewable energy resources to ramp up and offsets increased electricity demand from new technol
energy system: by reducing overall
demand for energy, energy efficiency allows renewable energy resources to ramp up and offsets increased electricity demand from new technol
energy,
energy efficiency allows renewable energy resources to ramp up and offsets increased electricity demand from new technol
energy efficiency allows renewable
energy resources to ramp up and offsets increased electricity demand from new technol
energy resources to ramp up and offsets increased electricity
demand from new technologies.
This report provides an explanation of different types of institutional delivery models currently in place across the United States and Canada to acquire
energy efficiency as a predictable and reliable
resource for meeting existing and future
energy demands.
As the world's
demand for energy continues to grow, we will need those
resources.
At the same time, China's
demand for energy and
resources - be it oil, coal, steel, cement, natual gas, copper etc., etc. - has been expanding at a mind - boggling pace, fueling the ever - growing Chinese economy.
In subsequent posts I will show that
resource limitations are just decades away, not centuries, and that the scramble
for resources will increase
demand for fossil fuel
energy.
This fixed infrastructure coupled with a pretty much insatiable human
demand drive
for energy services may result in a once - in - a-species crisis if our planetary
resource and ecosystems can no longer keep pace.
This
energy package, also referred to as the 20-20-20 package, was thought to help the EU meet its commitments
for 2020 under the UN climate change negotiations by
demanding a 20 % reduction in EU greenhouse gas emissions from 1990 levels; raising the share of EU
energy consumption produced from renewable
resources to 20 %; and finally, by improving the EU's
energy efficiency also by 20 %