Geothermal Sample Clauses

Geothermal. Delivery to the CfD Counterparty of Supporting Information evidencing entry by a UJV Party or the UJV Parties into a contract to drill the Facility’s first well.

Geothermal. Delivery to the CfD Counterparty of Supporting Information evidencing entry by the Generator into a contract to drill the Facility’s first well. Delivery to the CfD Counterparty of Supporting Information evidencing any one of the following: (A) Entry by the Generator into an engineering, procurement and construction contract for the Facility, providing for the civil works to be undertaken in respect of the Material Equipment. (B) Entry by the Generator into a civil works contract to be undertaken in respect of the Material Equipment. (C) Entry by the Generator into: (i) a framework agreement for the civil works to be undertaken in respect of the Material Equipment; and (ii) a binding purchase order for the Material Equipment. For the purpose of this section of Part B, the following definition shall apply to this Contract for Difference:

Geothermal. Delivery to the CfD Counterparty of Supporting Information evidencing entry by a UJV Party or the UJV Parties into a contract to drill the Facility's first well. 9. NOT USED 10. HYDROELECTRICITY (A) Entry by a UJV Party or the UJV Parties into an engineering, procurement and construction contract for the Facility, providing for the civil works to be undertaken in respect of the Material Equipment. (B) Entry by a UJV Party or the UJV Parties into a civil works contract to be undertaken in respect of the Material Equipment. (C) Entry by a UJV Party or the UJV Parties into: (i) a framework agreement for the civil works to be undertaken in respect of the Material Equipment; and (ii) a binding purchase order for the Material Equipment. For the purpose of this section of Part B, the following definition shall apply to this Contract for Difference:

Geothermal. Repair and/or replacement of geothermal heat sources and related components.

Geothermal. In-house geothermal experts design pumps to efficiently provide both heat and cooling to a facility by storing and recapturing energy from the ground on a seasonally advantageous basis. Wind, Small-Scale or Large-Scale Available wind resources, utility net metering, and local incentives can make on-site wind generation a viable solution for meeting a significant portion of many clients’ energy needs. Biomass Material like wood and other organic waste can be converted to energy by burning or gasifying it in a boiler to produce steam or gas. Our largest renewable energy project completed is a 20 MWe facility that uses biomass and other bioderived fuels as the primary source of energy. Distributed Generation Distributed generation systems slightly over-produce a site’s electrical load. Excess generation is purchased by the utility company. All the Southwest renewable team’s solar installations are distributed generation. Daylighting Natural light illuminates’ spaces while making it more inviting to the occupants. Dimming ballasts for fluorescent fixtures with a built-in controller are available to automatically adjust the output of a fixture. > Mechanical/Electrical Systems Heating We replace low efficiency boilers and furnaces with higher efficiency equipment; install emissions controls, modify existing equipment or install new equipment to use cleaner fuels; and install biomass boilers. Part 1 – RFP 180203 Renewable Energy and Solar Solutions and Services Part 2 – RCSP 180203 Renewable Energy and Solar Solutions and Services Ventilation and Indoor Air Quality Issues Ameresco engineers regularly control building ventilation through the measurement of CO2 levels, which can significantly impact cooling, heating and fan energy. AHUs and fan coil units are often installed to improve indoor air quality. Cooling Typical HVAC energy conservation projects can include replacement of chillers and cooling towers; installation of VFDs; conversion of dual duct and multizone systems to VAV systems; replacing variable inlet vanes on fans with VFDs; and converting air-cooled chillers to water cooled systems. Control and Building Automation Ameresco’s engineers have a wealth of experience automating building systems for optimum performance under changing building operating conditions, which is a cost-effective conservation strategy. Fuel Switching Ameresco converts electric and fuel oil fired boilers to natural gas. For example, we modified four gas fired turbines to use a m...

Geothermal. 9 Depending on resource temperature, flashed-steam or binary-cycle geothermal technologies 10 could be used with the liquid-dominated hydrothermal resources of the Pacific Northwest.

Geothermal. The heating of the al fresco dining areas will be automatically controlled by thermostat managed by RLC, providing a concrete surface temperature around 25 - 28 degrees when required during colder months on a 24/7 basis subject to any maintenance requirements.

Geothermal. Panama has 400 MW of geothermal resource. However, the inclination to exploit this form of energy is slow. Private-sector companies are more interested in wind power, and the Government is concentrated on promoting hydro-electricity. In 1998, the vertically integrated electricity utility IRHE, Institute of Hydraulic Resources and Electrification, was privatized and became part of a reform program that included creating a new regulatory framework, a wholesale electricity market, and a new tariff regulation. In 1997, the utility, (IRHE), had 920 MW of installed capacity, two-thirds hydroelectric and one-third thermal and a distribution grid. IRHE was composed into four generation companies (Bayano, 192 MW; Bahia las Minas, 292 MW; Fortuna, 300 MW; and Chiriqui, 222 MW); three distribution companies (Metro-Oeste, 195,000 customers; Noreste, 148,000 customers; and Chiriqui, 65,000 customers); and one transmission company that will be part of the government. In 1997 IFC advised the Government of Panama on the privatization of its utility IRHE and its restructuring into four generation companies, three distribution companies, and one transmission company. The privatization resulted in an immediate private capital inflow of US$600 million and reduced retail tariffs by 10%. The transaction was completed in 1999. Stakes in the generation companies were sold for a total of US$302 million: 49% of Fortuna was awarded to a Coastal Power and Hydro-Quebec consortium for US$118 million, 49% of Bayano and Chiriqui was sold to AES Corporation for US$92 million, and 51% of Bahia las Minas was awarded to Enron International for US$92 million. Stakes in the distribution companies were sold for a total of US$301 million. Union Fenosa acquired Metro Oeste and Chiriqui for US$212 million, and Constellation Power acquired Noreste for US$89 million There was an immediate private capital inflow of US$600 million, a transfer of US$250 million in government-guaranteed debt to the private sector, the transformation of a state power monopoly into seven private companies; and a 10% reduction in the average level of end-user tariffs. The National Energy Plan released by the National Energy Secretariat in 2009 developed a generation plan with the installation of an additional 1299.80 MW by 2023 through: • 706.30 MW from hydropower • 473.50 MW from thermal power • 120 MW from wind power. The National Energy Plan also recognized a draft expected in late 2010 that would focus on the need to a...

Geothermal. FlexTech Consultants may be asked to evaluate the technical and economic feasibility of proposed ground source heat pump installations, also referred to as geothermal heat pumps. Ground source heat pumps can provide space heating and cooling, and, with the addition of a desuperheater, hot water for residential and commercial buildings. Proposers must demonstrate experience in this field and be knowledgeable with evaluating geothermal sizing and systems design and installations, including closed loop, open loop and direct exchange systems.