(a) This subpart covers: (1) Wind energy evaluation leases (WEELs), which are short-term leases that authorize possession of Indian land for the purpose of installing, operating, and maintaining instrumentation, and associated infrastructure, such as meteorological towers, to evaluate wind resources for electricity generation; and (2) Wind and solar resource (WSR) leases, which are leases that

This proposed AD would require initial and repetitive FPIs of the LPC OGV outer mount ring assembly, and depending on the results of the inspections, possible replacement of the OGV outer mount ring assembly. Differences Between This Proposed AD and the Service Information RR Alert NMSB Trent XWB 72-AK188, Revision 2, dated December 17, 2019

(a) National goalsThe following are declared to be the national goals for the wind, photovoltaics, and solar thermal energy programs being carried out by the Secretary: (1) Wind (A) In general, the goals for the Wind Energy Research Program include improving design methodologies and developing more reliable and efficient wind turbines to increase

, become disabled, or die whichever occurs first. If you die before age 62, and your surviving spouse or surviving divorced spouse is first eligible after 1984, we may compute the primary insurance amount, for the purpose of paying benefits to your widow(er), as if you had not died but reached age 62 in the second year after the indexing year that we computed under the provisions of §404.211(d)(4). We

considers loading of the float immersed to create restoring moments compensating for upsetting moments caused by side wind, asymmetrical rotorcraft loading, water wave action, and rotorcraft inertia. [Amdt. 29-3, 33 FR 966, Jan. 26, 196, as amended by Amdt. 27-26, 55 FR 8002, Mar. 6, 1990]

For each launch of an unguided suborbital launch vehicle flown with a wind weighting safety system, in addition to the other requirements in this subpart outlined in §417.201(c), the flight safety analysis must: (a) Establish flight commit criteria and other launch safety rules that a launch operator must implement to control the risk

maintain continuity between the floor and chassis, so as to resist wind overturning, uplift, and sliding as imposed by design loads in this part. Uncompressed finished flooring greater than 1⁄8 inch in thickness shall not extend beneath load-bearing walls that are fastened to the floor structure. (b) Design loads—

The U.S. Nuclear Regulatory Commission (NRC) received a petition for rulemaking from Mr. George Berka (the petitioner), dated December 26, 2018, requesting that the NRC amend its regulations to establish criteria to return retired nuclear power reactors to operations. The petition was docketed by the NRC on February 19, 2019 and has been assigned Docket No. PRM-50-117. The NRC is examining the merits of the issues raised in PRM-50-117 to determine whether the issues should be considered in

United States by DC, a U.S. corporation that is the designated paying agent of FC. D does not have an account with DC. Although interest paid on the obligation issued by FC is foreign source, the interest paid by DC to D is considered to be interest under paragraph (b)(6) of this section for purposes of information reporting under section 6049 because it is not paid and received outside the United States within the meaning of

) Considering expected wind and other weather conditions. (3) The airplane has enough fuel to hold for 15 minutes at 1500 feet above field elevation and conduct a normal approach and landing. (b) No person may dispatch or release for flight an ETOPS flight unless, considering wind and other weather conditions expected, it has the fuel otherwise required by this part and enough fuel to satisfy each of the following requirements:

(a) Overview. This test applies to a candidate sampler which differs from the reference method sampler only with respect to the design of the inlet. The purpose of this test is to ensure that the aspiration of a Class II candidate sampler is such that it representatively extracts an ambient aerosol at elevated wind speeds. This wind tunnel test uses a single-sized, liquid aerosol in conjunction with wind speeds of 2 km/hr and 24

(a) Provisions for support and anchoring systems. Each manufactured home shall have provisions for support/anchoring or foundation systems that, when properly designed and installed, will resist overturning and lateral movement (sliding) of the manufactured home as imposed by the respective design loads. For Wind Zone I, the design wind loads to be used for calculating resistance to overturning and lateral movement shall be the

after 1978 become eligible for benefits or die before becoming eligible (beginning with December of the year they become eligible or die), although certain limitations are placed on the automatic adjustment of the frozen minimum primary insurance amount (as described in §404.277); and (c) The maximum family benefit amounts in

§ 83.12 Sailing vessels (Rule 12). (a) When two sailing vessels are approaching one another, so as to involve risk of collision, one of them shall keep out of the way of the other as follows: (i) When each has the wind on a different side, the vessel which has the wind on the port side shall keep

Primary Window and Sliding Glass Door for Utilization in Manufactured Housing, except the exterior and interior pressure tests must be conducted at the design wind loads required for components and cladding specified in §3280.305(c)(1). (2) All skylights must comply with AAMA/WDMA/CSA/101/I.S.2/A440-08: North American Fenestration Standard/Specifications for Windows

flight movements shall use forecasts prepared from weather reports specified in paragraph (b) of this section and from any source approved under its system adopted pursuant to paragraph (d) of this section. (d) Each certificate holder conducting domestic or flag operations shall adopt and put into use an approved system for obtaining forecasts and reports of adverse weather phenomena, such as clear air turbulence, thunderstorms, and low altitude wind shear, that may

intended to be used (including corrections for altitude and gradient, and wind and temperature conditions existing at the takeoff time). (2) Maximum takeoff weight considering anticipated fuel and oil consumption that allows compliance with applicable en route performance limitations. (3) Maximum takeoff weight considering anticipated fuel and oil consumption that allows compliance with the maximum authorized design landing weight

covered to prevent combustion and wind-borne waste. When the disposal is completed, a minimum of 2 feet of soil cover shall be placed over the site, slopes stabilized, and revegetation accomplished in accordance with §§816.111 through 816.116. Operation of the disposal site shall be conducted in accordance with all local, State and Federal requirements. (c) At no time

covered to prevent combustion and wind-borne waste. When the disposal is completed, a minimum of 2 feet of soil cover shall be placed over the site, slopes stabilized, and revegetation accomplished in accordance with §§817.111 through 817.116. Operation of the disposal site shall be conducted in accordance with all local, State, and Federal requirements. (c) At no time

A WEEL is a short-term lease that allows the lessee to possess trust or restricted lands for the purpose of evaluating wind resources. The lessee may use information collected under the WEEL to assess the potential for wind energy development, and determine future placement and type of wind energy technology to use in developing the energy resource potential of the leased area.

The owner or operator of a pile containing hazardous waste which could be subject to dispersal by wind must cover or otherwise manage the pile so that wind dispersal is controlled.

When any part of a home is installed within 1,500 feet of a coastline in Wind Zones II or III, the manufactured home must be designed for the increased requirements, as specified on the home's data plate (refer to §3280.5(f) of this chapter) in accordance with acceptable engineering practice. Where site or other conditions prohibit the use of the manufacturer's instructions, a registered

liquid particle sampling effectiveness and 50 percent cutpoint of a test sampler shall be determined in a wind tunnel using 10 particle sizes and three wind speeds as specified in table D-2. A minimum of 3 replicate measurements of sampling effectiveness shall be required for each of the 30 test conditions for a minimum of 90 test measurements. (d) For the liquid particle sampling effectiveness parameter, a smooth curve plot shall be constructed of sampling

applicable provisions of this part (including §§25.115, 25.123, and 25.125 for the weights, altitudes, temperatures, wind components, and runway gradients, as applicable) within the operational limits of the airplane, and must contain the following: (1) In each case, the conditions of power, configuration, and speeds, and the procedures for handling the airplane and any

(a) Roof load tests. This section provides the roof truss test procedure for vertical loading conditions. Where roof trusses act as support for other members, have eave or cornice projections, or support concentrated loads, roof trusses must also be tested for those conditions. These test procedures are required for new truss designs in all three wind zones and for existing truss designs used in Wind Zones II and III.