The same federal tax credit incentives for
distributed solar installations available in 2015 are available in 2016.
Not exact matches
Not sure what you mean by «rate» and «commercially available
solar» covers a lot of territory from 5 KW residential rooftop
installations to gigawatt - class utility - scale power plants (both PV and thermal)-- but the cost of electricity from rooftop PV is approaching parity with the retail cost of grid electricity, and that's the point at which
distributed PV will explode like cell phones and personal computers did.
The United States has slightly more than 20,000 megawatts (MW) of
solar generating capacity, which includes utility - scale
solar photovoltaic (PV) and
solar thermal
installations, as well as
distributed generation
solar PV systems, also known as rooftop
solar.
New
solar photovoltaic capacity drives nearly all of the growth in
solar generation, with increases coming from both the electric power sector and end - use sectors such as
distributed or customer - sited generation (i.e., rooftop
installations).
There has been growing tension between the electric utility industry and the
solar industry — specifically the part of
solar industry that is focused on
distributed, or point of use,
solar installations.
It's based on a network of smart grids connected to
distributed private roof top
solar and wind
installations.
Solar energy
installations and capacity in South Carolina have taken a turn for the better since enactment of the state
Distributed Energy Resource Program Act in 2014, and they have been rising since.
An estimate of total PV capacity must therefore account for many small
installations (often referred to as
distributed solar capacity).
All our heart goes out to
distributed solar, but utility - scale
solar installations in the United States are very much alive and kicking.
The report does discuss the tension between rooftop
solar and large - scale renewable energy projects, noting the lower per - unit cost of large
installations but also the unique benefits of
distributed generation.
Named for India's first prime minister, the Mission envisions 20,000 megawatts of grid - connected
solar power and 2,000 megawatts of
distributed, off - grid
solar installations by 2022.
As the number of customer - sited renewable energy
installations continues to surge nationwide, state policymakers have supported net metering for
solar and other
distributed clean technologies for a variety of reasons:
«We are honored to partner with Pinnacle Charter School and Mosaic to commission this
installation in Colorado, a vibrant
solar market,»
Distributed Sun CEO Chase Weir said.
Currently, California utilities are not allowed to use the RECs from small (
distributed generation)
solar installations to count towards state - mandated Renewable Portfolio Standard
solar capacity goals.
However, the residential and «non-residential» (commercial, industrial and other
distributed solar) markets both grew year - over-year, with the capacity of non-residential
installations surpassing residential
installations for the first time since 2013 and reaching 2.6 GW.
Since regular net metering policies require bill savings from a
solar installation to be applied to a particular customer's meter — rather than
distributed across multiple accounts — it has been more difficult for these customers to access the benefits of
solar.
Distributed solar is the industry term for the
solar installations at individual homes and businesses.
In fact, according to California
Distributed Generation Statistics, a state - run site, it has 703,133 distributed solar projects (like a rooftop solar installation), generating 5,637 megawatts (MW) of power for homes and
Distributed Generation Statistics, a state - run site, it has 703,133
distributed solar projects (like a rooftop solar installation), generating 5,637 megawatts (MW) of power for homes and
distributed solar projects (like a rooftop
solar installation), generating 5,637 megawatts (MW) of power for homes and businesses.
City Group (New York, NY) 1995 — 1997 Consultant — Unix Administrator • Senior System Administrator in for Solaris and Aix environment and application development area • Systems included Sun Ultra Enterprise 450, 420R, 4500, and 6500 running on Solaris 2.5.1, 2.6 and Aix 4.3.2 • Development environment composed of mostly Sun equipment including Sun StorEdge A5200, A5100, D1000 arrays using Veritas and SDS volume managers • Backed up systems with Legato Networker using BoxHill, Qualstar, and Sun StorEdge L9 tape stackers • Utilized Jrun, WebSphere, WebLogic, Actuate Report Server, iPlanet, and Netscape Enterprise • Senior Unix SA solely responsible for the application development area supporting Solaris, Aix and Linux platform • Performed massive
installation of Solaris servers using Jumpstart to global
distributed network • Installed new and trial software, maintained server stability, backed up system using Legato Networker, debugged system problems such as network connectivity, and packaged developers» software released to production • Project work involved getting specification from users, recommending appropriate system, submitting purchase order to purchasing, ensuring arrival of new system, building the system to Sotheby's standard, and installing necessary software for the user • Built and configured IBM and Sun servers installing Aix 4.0 and
Solar 2.5 - 2.6 operating system and Oracle 7 • Performed backup and Recovery using ADSM and Tape backup • Automated disk monitoring and routine tasks utilizing Bourne Shell scripting and cronjobs • Served as liaison between vendors on resolving hardware and software issues • Monitored servers using Tivoli Storage Software • Trained and mentored Junior systems Administrators and operators