Search results for: “\"shifting demand\" \"demand shift\"”

Demand shifting: electrical flexibility by industry?

Demand shifting flexes electrical loads in a power grid, to smooth volatility and absorb more renewables. This database scores technical potential and economical potential of different electricity-consuming processes to shift demand, across materials, manufacturing, industrial heat, transportation, utilities, residential HVAC and commercial loads.
Read more
February 25, 2021

Shifting demand: can renewables reach 50% of grids?

25% of the power grid could realistically become ‘flexible’, shifting its demand across days, even weeks. This is the lowest cost and most thermodynamically efficient route to fit more wind and solar into power grids. We are upgrading our renewables ceilings from 40% to 50%. This 22-page note outlines the opportunity.
Read more
Data-centers: electricity use and demand shifting?

This data-file estimates data-centers’ electricity use and ability to demand shift. Large data centers how power demand in the range of 50-500MW. Around 40% of their electrical loads can demand shift, to help smooth out the volatility of renewables?
Read more
Variable Power Tariffs Exacerbate Social Inequalities?

This data-file tabulates the impacts of variable electricity tariffs, after a large-scale US sample. Demand is inelastic, falling just 1% for a 20% price-increase. However, socially “vulnerable” consumers suffered disproportionately, with bills rising 4% more than non-vulnerable consumers.
Read more
Desalination by reverse osmosis: the economics?

35bn tons of desalinated water are produced each year, absorbing 250 TWH of energy, or 0.4% of total global energy consumption. These numbers will likely rise, due to demographic trends, and due to climate change. Desalination costs average $1.0/m3, use 3.5kWh/m3 of electricity and can demand shift.
Read more
Manufacturing utilization rates by industry?

This data-file tabulates the utilization rates of different industries over time, based on a variety of data sources. Manufacturing utilization rates ran at almost 80% prior to the COVID crisis, underpinning 11% of US GDP and 25% of US energy consumption. No manufacturing industry can realistically be profitable running at the c35% utilization rates of…
Read more
Renewables: how much time to connect to the grid?

Is the power grid becoming a bottleneck for the continued acceleration of renewables? The median approval time to tie a new US power project into the grid has climbed by 30-days/year since 2001, and doubled since 2015, to over 1,000 days (almost 3-years) in 2021. Wind and solar projects are now taking longest. This data-file…
Read more
Cement costs and energy economics?

This data-file captures cement costs, based on inputs, capex and energy economics. A typical cement plant requires a cement price of $130/ton for a 10% IRR, on capex costs of $200/Tpa, energy intensity of 1,000 kWh/ton and CO2 intensity of 0.9 tons/ton. Cement costs can be stress tested in the data-file.
Read more
Chlor-alkali process: the economics?

This data-file captures chlor-alkali process economics, to produce 80MTpa of chlorine and 90MTpa of caustic soda. Our base case requires $600 per ecu for a 10% IRR and a growth project costing $600/Tpa. Electricity is 45% of cash cost. CO2 intensity is 0.5 tons/ton. Interestingly, chlor-alkali plants can demand shift.
Read more
Hydrogen: overview and conclusions?

We think the best opportunities in hydrogen will be to decarbonize gas at source via blue and turquoise hydrogen, displacing ‘black hydrogen’ that currently comes from coal, and to produce small-scale feedstock on site via electrolysis for select industries. Others see green hydrogen as a cornerstone of the future energy system. We think there may…
Read more

Energy Units — An Overview

Search results for: “\"shifting demand\" \"demand shift\"”

Content by Category

Cookies?