Power Generation Sample Clauses
Power Generation. Power Generation personnel shall normally work 7:00 a.m. to 3:30 p.m. or rotate shifts as needed (to be determined by the City) using a combination of 7:00 a.m. to 3:30 p.m.; 9:00 a.m. to 5:30 p.m.; and 11:00 a.m. to 7:30 p.m., with 30 minute meal break near the mid-point of the shift. Shifts shall be assigned equitably. When days off are changed in order to operate the generating plants on Saturday and/or Sunday shifts shall be compensated using shift differential rates in accordance with Section 1.
Power Generation. Details related to the frequency and load (for or partial) tests of Vendor’s power generating capacity.
Power Generation. The Company has proposed a vertically integrated domestic power project at PNG’s second largest city of Lae. A detailed Power Purchase Agreement has been submitted to PNG Power, the state‐owned power entity, for a 52.5MW (net) power facility (with future scalability to 200MW). A definitive feasibility study has been completed for the Lae project that contemplates the use of multi fuels (Enviro Energy Park) including renewables and potentially coal, subject to the requisite regulatory approvals, from the Company’s Depot Creek project in Gulf Province.
Power Generation. When You hire a Power Generator from Us, these additional Special Conditions of Hire form part of Your Hire Agreement. Terms used in these Special Conditions have the same meaning as those used in the Terms of Hire unless indicated otherwise:
Power Generation. If Lessee utilizes Geothermal Resources to generate and sell electric power, a royalty of [***] of the gross proceeds of the sale of said electric power for the first [***] years from the first sale of electricity and [***] thereafter, in each case less Deductible Costs (as defined in Section 3(b) (vi));
Power Generation. The maximum bonus or liquidated damages ---------------- capable of being earned by or assessed against Operator in the Power Generation category of the AFAA in any Project Year shall be Fifty Thousand and 00/100 Dollars ($50,000.00). To determine the amount of bonus or liquidated damages attributable to such category, a calculation will be made to determine the Power Generation Factor (as defined hereinbelow) for a Project Year. Subject to the Fifty Thousand and 00/100 Dollars ($50,000.00) limitation, if the Power Generation Factor is greater than or equal to ninety-five percent (95%), Operator shall be entitled to a bonus under the Power Generation category of the AFAA calculated in accordance with the following formula: Bonus = $25,000 + [(PGF - .95) x $833,333] For a given Project Year, if the Power Generation Factor is less than ninety-five percent (95%), but not less than ninety-two and one-half percent (92.50%), the AFAA for the Power Generation category for such Project Year shall be zero. Subject to the Fifty Thousand and 00/100 Dollars ($50,000.00) limitation, if the Power Generation Factor is less than ninety-two and one-half percent (92.50%), Operator shall be assessed liquidated damages under the Power Generation category of the AFAA calculated in accordance with the following formula: Liquidated Damages = $25,000 + [(.925 - PGF) X $833,333)] For purposes of the foregoing calculations, the following definitions shall apply:
Power Generation. Scheduled outage work when all employees are not scheduled on a holiday will be offered to those employees on the outage overtime list by seniority. If not enough employees volunteer, home plant employees on the outage overtime list will be offered the holiday work by seniority. If forcing is required, it will be done by inverse seniority of those employees on the outage overtime list. Note (3) For Holiday Work by Nuclear Operators, see Nuclear supplemental.
Power Generation. When You hire a Power Generator from Us, these additional Special Conditions of Hire form part of Your Hire Agreement. Terms used in these Special Conditions have the same meaning as those used in the Terms of Hire unless indicated otherwise.
27.1 Definitions (a) “Power Generator” means a device or combination of devices that converts mechanical energy, chemical reaction or photovoltaics to produce electrical energy (also known as a generator set or power source).
Power Generation. Financial Value of Power Incremental Cost: Average annual gain (loss) in value of electricity relative to Base Case. Value is determined from the sum of: Total value of BC Hydro system generation + The value of incremental water passing through the US system, from NTS transactions assumed to be made by BC Hydro. 17 To assist in evaluating relative performance among the four NTS scenarios, a Minimum Significant Incremental Change (MSIC) was estimated for most of the performance measures (based on prior WUP rationale). The MSIC is the amount by which any two alternatives must differ on a performance measure score before one alternative can be considered to perform significantly better than the other. Two alternatives are considered to perform equally on an objective when the difference in the performance measure scores is equal to or less than the MSIC. Significant differences were largely subjective estimates, which accounted for uncertainty in: The calculation of reservoir discharge/elevations. The calculation of the performance measures. The link between the performance measure and the fundamental objective. Measurement error. Note that any use of the word ‘significant’ when referring to PM results is in explicit reference to the MSIC values assigned to each PM.
Power Generation. Power generation in Växjö has been renewable since 2020. In autumn 2021, a new energy plan was adopted that clarifies development and focus areas. Particular emphasis is placed on the ambition to increase local electricity production so that it at least corresponds to local use. This means continuing to actively participate in increased electricity production from wind, solar, water and bio-based cogeneration. Bearing in mind developments regarding electricity supply in Sweden and Europe during 2022, this will be an even more important focus area for the work ahead. Meanwhile, there is a need to ensure that the “unnecessary” and uneven electricity use continues to decrease while produced electricity is used for the right purpose. This contributes to making Växjö more resilient to power shortages and to reducing the climate impact from Nordic electricity production. We are starting work on enabling the production of renewable fuels, such as bio-aviation fuel and hydrogen, adjacent to the Sandvik CHP plant, and have an ambition to increase the production of biogas. We secure energy feedstocks without sacrificing biodiversity, which is important as the majority of Växjö’s energy production originates from forest residuals.